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Note taking skills
There are many ways to take notes: Note journaling, Cornell notes, Guided notes, Harvard notes, one-pagers, etc. No one system is always best.
Highlighting/taking notes in (printed) textbook or workbook
I often highlight passages in a book, or make notes. Note that studying with a highlighter doesn’t replace taking your own notesduring class.
How To Study With A Highlighter: Three Pitfalls You Should Avoid
Highlighting/taking notes – online textbook or workbook
You can make any OpenStax book yours with digital highlighting and notetaking.
Use a traditional lined notebook
This example is from Mr. Logue’s Middle School Science Lab.
One pagers, sketch notes
Some students take the time to create inspired & artistic versions of notes. These are called sketch notes or one-pagers:
After the class day is over you can put together your notes and thoughts to create something like
Or like this
For details see One-page notes/posters and
Using Sketch Notes in the Biology Classroom
Cornell Notes
A systematic format for condensing and organizing notes. The student divides the paper into two columns: the note-taking column (usually on the right) is twice the size of the questions/key word column (on the left). The student should leave five to seven lines, or about two in (5 cm), at the bottom of the page.
Notes from a class are written in the note-taking column; they consist of the main ideas; long ideas are paraphrased. Long sentences are avoided; symbols or abbreviations are used instead.
To assist with future reviews, relevant questions (which should be recorded as soon as possible so that the lecture and questions will be fresh in the student’s mind) or key words are written in the key word column.
Within 24 hours of taking the notes, the student must revise and write questions, and then write a brief summary in the bottom five to seven lines of the page. This helps to increase understanding of the topic.
When reviewing the material, the student can cover the note-taking (right) column while attempting to answer the questions/keywords in the key word or cue (left) column.
_ Wikipedia
The Cornell Note Taking system (2 page PDF file)
Guided Notes
“Sometimes lecturers may provide handouts of guided notes, which provide a “map” of the lecture content with key points or ideas missing. Students then fill in missing items as the lecture progresses. Guided notes may assist students in following lectures and identifying the most important ideas from a lecture.
This format provides students with a framework, yet requires active listening (as opposed to providing copies of powerpoint slides in their entirety). Research has shown that guided notes improve students’ recording of critical points in lecture as well as their quiz scores on related content.”
– Wikipedia
Example of guided notes for a biology class:
Harvard Notes
This is an organized, common system. When taking notes from a book or lecture:
Write down the main idea of at least every other paragraph.
Use phrases, not complete sentences
Where you have a I, you have to have a II; where you have an A, you have to have a B
You don’t need sub ideas
Example
Image from hicksvillepublicschools.org
Here is a example from the University of Tennessee at Chattanooga, Center for College and Student Success, note-taking methods.
Related articles
For Note Taking, Low-Tech is Often Best; In college lecture halls, evidence suggests it’s time to put down the laptop and pick up a pen. By Susan Dynarski
Mousetrap racer build project
Your task is to build a mousetrap powered car!
It can be built from wood, paper, plastic, metal, erector sets, pens, rulers, old toys, Legos, and other materials.
We need a fair comparison between race cars. Therefore it must be powered by only 1 mousetrap.
You may not modify the mousetrap, such as by over-winding the metal coil, because that would unfairly increase its potential energy storage.
A rat trap, or trap for any other animal, is not safe or acceptable.
2 people may collaborate to make 1 car.
If you do not have your car on the day that it is due, you lose 5 points per day.
I suggest working in groups, making your own local mousetrap racer “factory”. This approach is easier and more fun.
Clearly print your names somewhere on the car!
Giving time to do this
Day 1 – We introduce the project, discuss the physics and engineering principles, show some videos and photos.
Day 2 – (Which could be any day that fits our class schedule) – Have students bring in the building materials they have procured so far. Also, as a teacher I will help make materials available in class. Both teacher and some volunteer students will show in class how to assemble a mousetrap racer. The way that it is shown in class is not the only way to do it.
Day 3 – Classroom build. Students individually or in pairs work on the mousetrap racer. First start off with a brief review of physics principles – storing energy as PE, simple machines, how mechanical devices can transform PE into kinetic energy, etc.
Day 4 – Run the mousetrap racers! Find a long hallway with a smooth floor. We will have competitions:
(A) Fastest: Which car goes to the finish line in the shortest amount of time?
(B) Furthest distance: Which car goes the furthest?
Much information on mouse trap racers is available online. However, you may not use a kit to build your racer.
Instructables (several ideas here)
Mousetrap cars and kits from Doc Fizzix. Great for ideas
Gallery of great mousetrap racers. from UCI Summer Science Institute
What is a mousetrap powered car? How does it work?
It is a vehicle powered by a mousetrap spring. We tie one end of a string to the tip of a mousetrap’s snapper arm, and the other end of the string has a loop that is designed to “catch” a hook that is glued to a drive axle.
Once the loop is placed over the axle hook, the string is wound around the drive axle by turning the wheels in the opposite direction to the vehicle intended motion.
As the string is wound around the axle, the lever arm is pulled closer to the drive axle causing the mousetrap’s spring to “wind-up” and store energy.
When the drive wheels are released, the string is pulled off the drive axle by the mousetrap, causing the wheels to rotate.
How do you build a mouse trap powered racer?
There is no one “right way” to build a mousetrap powered vehicle. The first step to making a good mouse trap powered car is simple: put something together and find out how it works.
Once you have something working you can begin to isolate the variables that are affecting the performance and learn to adjust to improve your results.
Build, test, have fun spectacular failures, and improve, just like SpaceX rockets.
What’s the difference between a FAST Racer and a LONG distance traveler?
When you build a mouse-trap car for distance, you want a small energy consumption per second or a small power usage. Smaller power outputs will produce less wasted energy and have greater efficiency.
When you build a vehicle for speed, you want to use your energy quickly or at a high power output.
We change the power ratio of a vehicle by changing one or all of the following:
* where the string attaches to the mouse-trap’s lever arm
* the drive wheel diameter
* the drive axle diameter.
The amount of energy released by using a short lever arm or a long lever arm is the same, but the length of the lever arm will determine the rate at which the energy is released and this is called the power output.
Long lever arms decrease the pulling force and power output but increase the pulling distance.
Short lever arms increase the pulling force and the power output by decrease the pulling distance but increasing the speed.
Building for speed
If you are building a mouse-trap car for speed, you will want to maximize the power output to a point just before the wheels begin to spin-out on the floor. Maximum power output means more energy is being transferred into energy of motion in a shorter amount of time. Greater acceleration can be achieved by having a short length lever arm and/or by having a small axle to wheel ratio.
Building for distance
Minimize the power output or transfer stored energy into energy of motion at a slow rate. This usually means having a long lever arm and a large axle-to-wheel ratio.
If you make the lever arm too long, you may not have enough torque through the entire pulling distance to keep the vehicle moving, in which case you will have to attach the string to a lower point or change the axle-to wheel ratio.
Supplies
Most parts can be scavenged from toys, or recycled materials. You may also consider stores such as Michael’s Art Supply, Home Depot, or A. C. Moore. Mousetraps are available in 2 packs, for less than $2, from supermarkets.
Learning Standards
Next Generation Science Standards
DCI – Energy is a quantitative property of a system that depends on the motion and interactions of matter and radiation within that system. That there is a single quantity called energy is due to the fact that a system’s total energy is conserved, even as, within the system, energy is continually transferred from one object to another and between its various possible forms.
Conservation of energy means that the total change of energy in any system is always equal to the total energy transferred into or out of the system.
Energy cannot be created or destroyed, but it can be transported from one place to another and transferred between systems.
Mathematical expressions, which quantify how the stored energy in a system depends on its configuration (e.g., relative positions of charged particles, compression of a spring) and how kinetic energy depends on mass and speed, allow the concept of conservation of energy to be used to predict and describe system behavior.
The availability of energy limits what can occur in any system.
Next Generation Science Standards: Science – Engineering Design (6-8)
• Evaluate competing design solutions using a systematic process to determine how well they meet the criteria and constraints of the problem.
Massachusetts Science and Technology/Engineering Curriculum Framework
HS-ETS4-5(MA). Explain how a machine converts energy, through mechanical means, to do work. Collect and analyze data to determine the efficiency of simple and complex machines.
HS-PS3-3. Design and evaluate a device that works within given constraints to convert one form of energy into another form of energy.
• Emphasis is on both qualitative and quantitative evaluations of devices.
• Examples of devices could include Rube Goldberg devices, wind turbines, solar cells, solar ovens, and generators.
Appendix VIII Value of Crosscutting Concepts and Nature of Science in Curricula
Cause and Effect: Mechanism and Explanation. Events have causes, sometimes simple, sometimes multifaceted. A major activity of science and engineering is investigating and explaining causal relationships and the mechanisms by which they are mediated. Such mechanisms can then be tested across given contexts and used to predict and explain events in new contexts or design solutions.
PSAT Science questions
About the PSAT
This is designed to measure the ability to understand and process elements of reading, writing, and mathematics…. The College Board now also offers two PSAT variations: the PSAT 10 for sophmores, and the PSAT 8/9 for freshmen and eighth graders. These variations generate score reports that measure students’ college readiness and skillsets. (the PSAT 8/9 is shorter and less complex). Read more about the PSAT variations. It has four sections:
- The Reading Test – 60 minutes, 47 questions
- The Writing and Language Test – 35 minutes, 44 questions
- Math Test, No Calculator Portion – 25 minutes, 17 questions
- Math Test, Calculator Portion – 45 minutes, 31 questions
The PSAT/NMSQT and PSAT 10 both have a total testing time of 2 hours and 45 minutes.
= from testmasters.net
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from the Kaplan website kaptest.com/study/psat/psat-reading-science-passages/
The PSAT Reading Test will contain either two single Science passages or one single Science passage and one set of paired Science passages. Science passages differ from other passage types because:
- They often contain a lot of jargon and technical terms.
- They can utilize unfamiliar terms and concepts.
While Science passages can be tricky due to unfamiliar language, you will never need to employ knowledge outside of the passage when answering questions. Use the following strategy when approaching Science passages on the PSAT:
Let’s look at the following example of an abbreviated Science passage and question set. After the mapped passage, the left column contains questions similar to those you’ll see on the PSAT Reading Test on Test Day. The column on the right features the strategic thinking a test expert employs when approaching the passage and questions presented. Note how a test expert can quickly condense the entire passage into a few words and use his or her Passage Map to ask questions that build a prediction for the correct answer.
REMINDER
When you encounter more than one theory or idea, paraphrase each in as few words as possible in your Passage Map.
Sample PSAT Reading Practice Question: Science
For practice question #1, use the Passage Map to find where the author mentions color. Because the author mentions both “filtering” and “dust,” you know that the right answer will include those. Choice (C) mentions “filtering” and is, therefore, correct.
For practice question #2, ask “Why did the author choose those words—what are they doing?” Could you picture how an eclipse worked? Predict that the phrase helps the reader understand the concept. Choice (D) matches exactly.
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from 2015 Practice Test #1, Preliminary SAT/National Merit Scholarship Qualifying Test
Questions 20-28 are based on the following passage and supplementary material.
This passage is adapted from Tina Hesman Saey, “Lessons from the Torpid.” ©2012 by Society for Science & the Public.
Understanding how hibernators, including ground squirrels, marmots and bears, survive their long winter’s naps may one day offer solutions for problems such as heart disease, osteoporosis and muscular dystrophy. Nearly everything about the way an animal’s body
works changes when it hibernates, and preparations start weeks or months in advance. The first order of business is to fatten up.
“Fat is where it’s at for a hibernator,” says Matthew Andrews, a molecular biologist at the
University of Minnesota Duluth who studies 13-lined ground squirrels. “You bring your own lunch with you.” Packing lunch is necessary because the animals go on the world’s strictest diet during the winter, surviving entirely off their white fat. “They have their last supper in October; they don’t eat again until March,” Andrews says.
Bigger fat stores mean a greater chance of surviving until spring. “If they go in really chunky, nice and roly-poly, that’s going to be a good hibernator,” he says. Bears also watch their waistlines expand in the months before settling in for the season. The brown
bears cardiologist Ole Fröbert studies pack on the pounds by chowing down on up to 40 kilograms of blueberries a day. Such gluttony among humans could have severe consequences: Obesity is associated with a greater risk of heart attack and diabetes, among other ailments.
To see how fattening up affects Scandinavian brown bears, Fröbert and his colleagues
ventured into the wilds of Sweden following signals given off by radio transmitters or GPS devices on tagged bears.
Bears can be dangerous close-up. Even hibernating bears can rouse to action quickly, so
scientists tracking down bears in the winter use darts to tranquilize the animals from a distance. Scientists studying the bears in the summer tranquilize them from a helicopter.
Once a bear is under the tranquilizer’s influence (which takes about five minutes), the scientists have 60 minutes max to get the animal from its den, weigh and measure it, draw blood samples and do minor surgeries to collect fat and other tissues. The bear is returned to its den by minute 61.
Precious materials collected during this high-pressure encounter need to be analyzed within 24 hours, so the researchers often test for levels of cholesterol or certain proteins in the blood while working in the snow or at a nearby research station. A pilot sometimes flies samples from field sites to a lab in Denmark in order to meet the deadline, Fröbert says. Samples such as bones and arteries that can’t be collected from live bears come from bears killed by hunters during the legal hunting season.
Recent analyses revealed that Scandinavian brown bears spend the summer with plasma cholesterol levels considered high for humans; those values then increase substantially for hibernation, Fröbert and his colleagues reported. These “very, very fat” bears with high cholesterol also get zero exercise during hibernation. Lolling about in the den pinches off blood vessels, contributing to sluggish circulation.
“That cocktail would not be advisable in humans,” Fröbert says. It’s a recipe for hardened arteries, putting people at risk for heart attacks and strokes. Even healthy young adult humans can develop fatty streaks in their arteries that make the blood
vessels less flexible, but the bears don’t build up such artery-hardening streaks. “Our bears, they had nothing,” Fröbert says. It’s not yet clear how the bears keep their arteries flexible, but Fröbert hopes to find some protective molecule that could stave off hardened arteries in humans as well.
20. The passage is written from the perspective of someone who is
A) actively involved in conducting hibernator research.
B) a participant in a recent debate in the field of cardiology.
C) knowledgeable about advances in hibernator research.
D) an advocate for wildlife preservation.
21. It is reasonable to conclude that the main goal of the scientists conducting the research described in the passage is to
A) learn how the hibernation patterns of bears and squirrels differ.
B) determine the role that fat plays in hibernation.
C) illustrate the important health benefits of exercise for humans.
D) explore possible ways to prevent human diseases.
22. Which choice provides the best evidence for the answer to the previous question?
A) Lines 1-5 (“Understanding… dystrophy”)
B) Lines 10-13 (“Fat… squirrels”)
C) Lines 31-35 (“To… bears”)
D) Lines 42-46 (“Once… tissues”)
23. What main effect do the quotations by Andrews in lines 10-18 have on the tone of the passage?
A) They create a bleak tone, focusing on the difficulties hibernators face during the winter.
B) They create a conversational tone, relating scientific information in everyday language.
C) They create an ominous tone, foreshadowing the dire results of Andrews’s research.
D) They create an absurd tone, using images of animals acting as if they were human.
24. As used in line 19, “stores” most nearly means
A) preservatives.
B) reserves.
C) stacks.
D) shelters.
25 Based on the passage, what is Fröbert’s hypothesis regarding why bears’ arteries do not harden during hibernation?
A) The bears’ increased plasma cholesterol causes the arteries to be more flexible.
B) Sluggish circulation pinches off the blood vessels rather than hardening the arteries.
C) Bears exercise in short, infrequent bursts during hibernation, which staves off hardened arteries.
D) Bears possess a molecule that protects against hardened arteries.
26 Which choice provides the best evidence for the
answer to the previous question?
A) Lines 19-20 (“Bigger… spring”)
B) Lines 24-27 (“The brown… day”)
C) Lines 69-72 (“Even… streaks”)
D) Lines 73-76 (“It’s… well”)
27 What information discussed in paragraph 10 (lines 58-68) is represented by the graph?
A) The information in lines 58-62 (“Recent…reported”)
B) The information in lines 62-64 (“These…hibernation”)
C) The information in lines 64-65 (“Lolling…circulation”)
D) The information in lines 67-68 (“It’s… strokes”)
28 Which statement about the effect of hibernation on the seven bears is best supported by the graph?
A) Only one of the bears did not experience an appreciable change in its total plasma cholesterol level.
B) Only one of the bears experienced a significant increase in its total plasma cholesterol level.
C) All of the bears achieved the desirable plasma cholesterol level for humans.
D) The bear with the lowest total plasma cholesterol level in its active state had the highest total plasma cholesterol level during hibernation.
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Questions 38-47 are based on the following passages.
Passage 1 is adapted from Stewart Brand, “The Case for Reviving Extinct Species.” ©2013 by the National Geographic Society. Passage 2 is adapted from the editors at Scientific American, “Why Efforts to Bring Extinct Species Back from the Dead Miss the Point.” ©2013 by Nature America, Inc.
Passage 1: Many extinct species—from the passenger pigeon to the woolly mammoth—might now be reclassified as “bodily, but not genetically, extinct.” They’re dead, but their DNA is recoverable from museum specimens and fossils, even those up to 200,000 years
old. Thanks to new developments in genetic technology, that DNA may eventually bring the animals back to life. Only species whose DNA is too old to be recovered, such as dinosaurs, are the ones to consider totally extinct, bodily and genetically.
But why bring vanished creatures back to life? It will be expensive and difficult. It will take decades. It won’t always succeed. Why even try? Why do we take enormous trouble to protect endangered species? The same reasons will apply to species brought back from extinction: to preserve biodiversity, to restore diminished ecosystems, to advance the science of preventing extinctions, and to undo harm that humans have caused in the past.
Furthermore, the prospect of de-extinction is profound news. That something as irreversible and final as extinction might be reversed is a stunning realization. The imagination soars. Just the thought of mammoths and passenger pigeons alive again
invokes the awe and wonder that drives all conservation at its deepest level.
Passage 2: The idea of bringing back extinct species holds obvious gee-whiz appeal and a respite from a steady stream of grim news. Yet with limited intellectual bandwidth and financial resources to go around, de-extinction threatens to divert attention from the modern biodiversity crisis. According to a 2012 report from the International Union for
Conservation of Nature, some 20,000 species are currently in grave danger of going extinct.
Species today are vanishing in such great numbers—many from hunting and habitat destruction—that the trend has been called a sixth mass extinction, an event on par with such die-offs as the one that befell the dinosaurs 65 million years ago.
A program to restore extinct species poses a risk of selling the public on a false promise that technology alone can solve our ongoing environmental woes — an implicit assurance that if a species goes away, we can snap our fingers and bring it back.
Already conservationists face difficult choices about which species and ecosystems to try to save, since they cannot hope to rescue them all. Many countries where poaching and trade in threatened species are rampant either do not want to give up the revenue or lack the wherewithal to enforce their own regulations. Against that backdrop, a costly and flamboyant project to resuscitate extinct flora and fauna in the name of conservation looks irresponsible: Should we resurrect the mammoth only to let elephants go under? Of course not.
That is not to say that the de-extinction enterprise lacks merit altogether. Aspects of it could conceivably help save endangered species. For example, extinct versions of genes could be reintroduced into species and subspecies that have lost a dangerous amount of genetic diversity, such as the black-footed ferret and the northern white rhino. Such investigations, however, should be conducted under the mantle of preserving modern biodiversity rather than conjuring extinct species from the grave.
38. The author of Passage 1 suggests that the usefulness of de-extinction technology may be limited by the
A) amount of time scientists are able to devote to genetic research.
B) relationship of an extinct species to contemporary ecosystems.
C) complexity of the DNA of an extinct species.
D) length of time that a species has been extinct.
39. Which choice provides the best evidence for the answer to the previous question?
A) Lines 7-9 (“Thanks… life”)
B) Lines 9-11 (“Only… genetically”)
C) Line 13 (“It will be… difficult”)
D) Lines 13-14 (“It will take… succeed”)
40. As used in line 27, “deepest” most nearly means
A) most engrossing.
B) most challenging.
C) most extensive.
D) most fundamental.
41. The authors of Passage 2 indicate that the matter of shrinking biodiversity should primarily be considered a
A) historical anomaly.
B) global catastrophe.
C) scientific curiosity.
D) political problem.
42. Which choice provides the best evidence for the answer to the previous question?
A) Lines 37-41 (“Species… ago”)
B) Lines 42-45 (“A program… woes”)
C) Lines 53-56 (“Against… irresponsible”)
D) Lines 65-67 (“Such… grave”)
43. As used in line 37, “great” most nearly means
A) lofty.
B) wonderful.
C) large.
D) intense.
44. The reference to the “black-footed ferret and the northern white rhino” (line 64) serves mainly to
A) emphasize a key distinction between extinct and living species.
B) account for types of animals whose numbers are dwindling.
C) provide examples of species whose gene pools are compromised.
D) highlight instances of animals that have failed to adapt to new habitats.
45. Which choice best states the relationship between the two passages?
A) Passage 2 attacks a political decision that Passage 1 strongly advocates.
B) Passage 2 urges caution regarding a technology that Passage 1 describes in favorable terms.
C) Passage 2 expands on the results of a research study mentioned in Passage 1.
D) Passage 2 considers practical applications that could arise from a theory discussed in Passage 1.
46. How would the authors of Passage 2 most likely respond to the “prospect” referred to in line 21, Passage 1?
A) With approval, because it illustrates how useful de-extinction could be in addressing widespread environmental concerns.
B) With resignation, because the gradual extinction of many living species is inevitable.
C) With concern, because it implies an easy solution to a difficult problem.
D) With disdain, because it shows that people have little understanding of the importance of genetic diversity
47. Which choice would best support the claim that the authors of Passage 2 recognize that the “imagination soars” (line 24, Passage 1) in response to de-extinction technology?
A) Lines 28-30 (“The… news”)
B) Lines 30-33 (“Yet… crisis”)
C) Lines 58-59 (“That… altogether”)
D) Lines 61-63 (“For… diversity”)
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Questions 12-22 are based on the following passage and supplementary material: Vanishing Honeybees: A Threat to Global Agriculture
Honeybees play an important role in the agriculture industry by pollinating crops. An October 2006 study found that as much as one-third of global agriculture depends on animal pollination, including honeybee pollination—to increase crop output. The importance of bees highlights the potentially disastrous affects of an emerging, unexplained crisis: entire colonies of honeybees are dying off without warning. They know it as colony collapse disorder (CCD), this phenomenon will have a detrimental impact on global agriculture if its causes and solutions are not determined.
Since the emergence of CCD around 2006, bee mortality rates have exceeded 25 percent of the population each winter. There was one sign of hope: during the 2010–2012 winter seasons, bee mortality rates decreased slightly, and beekeepers speculated that the colonies would recover. Yet in the winter of 2012–2013, 10 percent in the United States, with a loss of 31 percent of the colonies that pollinate crops.
12 A) NO CHANGE
B) pollination: this is
C) pollination,
D) pollination;
13 A) NO CHANGE
B) highlights the potentially disastrous effects
C) highlight the potentially disastrous effects
D) highlight the potentially disastrous affects
14 A) NO CHANGE
B) Known as colony
C) It is known as colony
D) Colony
15 Which choice offers the most accurate interpretation of the data in the chart?
A) NO CHANGE
B) been above the acceptable range.
C) not changed noticeably from year to year.
D) greatly increased every year.
16 Which choice offers an accurate interpretation of the
data in the chart?
A) NO CHANGE
B) portion of bees lost was double what it had been
the previous year, rising to
C) number of losses, which had fallen within the
acceptable range the previous year, rose to
D) portion of total colonies lost rose almost 10 percentage points, with a loss of
Studies have offered several possible reasons that bees are vanishing. One reason that is often cited is the use of pesticides called neonicotinoids, which are absorbed by plants and linger much longer than do topical pesticides. Chemicals such as herbicides and
fungicides may also play a role, contaminating the pollen that bees typically feed on and inhibiting healthy insect maturation.
17 Which choice most smoothly and effectively introduces the writer’s discussion of studies of CCD in this paragraph?
A) NO CHANGE
B) Bees are vanishing, and according to studies there are several possible reasons for this trend.
C) Several possible reasons, offered by studies, may explain why bees are vanishing.
D) DELETE the underlined sentence.
18 At this point, the writer is considering adding the following sentence. Prolonged exposure to neonicotinoids has been shown to increase bees’ vulnerability to disease and parasitic mites. Should the writer make this addition here?
A) Yes, because it provides support for the claim made in the previous sentence.
B) Yes, because it introduces a new idea that will become important later in the passage.
C) No, because it would be better placed elsewhere in the passage.
D) No, because it contradicts the main idea of the passage.
Given the role that honeybees play in agriculture, the impact of this loss of hives on fruit, vegetable, seed, and nut crops is not to be scoffed at. A reduction in bee numbers leads to less pollination, which in turn leads to smaller harvests and higher food prices. Some farmers have resorted to renting hives from beekeepers to pollinate their crops; when there is a shortage of bees this being an expensive proposition. Other farmers have
increased they’re dependence on costly hand-pollination by human workers.
urthermore, there may be sociological repercussions. Agroecologist Alexandra-Maria Klein has suggested that rising produce prices could lead to an increase in obesity as people turn to cheaper, less wholesome fare.
Though the precise causes of CCD are yet unclear, some commonsense measures may be taken. A decrease in the use of certain pesticides, herbicides, and fungicides, as well as greater attention to the nutrition, habitat, and genetic diversity of managed hives, could begin a shift in a favorable direction.
19
A) NO CHANGE
B) is a pretty big deal.
C) can’t be put on the back burner.
D) cannot be ignored.
20
A) NO CHANGE
B) crops, this is an expensive proposition when
there is a shortage of bees.
C) crops, an expensive proposition when there is a shortage of bees.
D) crops; an expensive proposition when there is a shortage of bees.
21
A) NO CHANGE
B) there
C) their
D) its
22
The writer wants a conclusion that addresses the future of efforts to combat CCD. Which choice results in the passage having the most appropriate concluding sentence?
A) NO CHANGE
B) Still, bee colonies have experienced such devastating losses that the consequences of the issue have been felt worldwide.
C) Although CCD is a relatively new phenomenon, scientists have been studying other aspects of honeybees for over a century.
D) Genetic variation in bee colonies generally improves bees’ productivity, disease resistance, and ability to regulate body temperature.
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Fall 2016 PSAT Practice Test
Click to access psat-nmsqt-practice-test-2.pdf
Questions 39-47 are based on the following passage.
This passage is adapted from Ed Yong, “Gut Bacteria Allows Insect Pest to Foil Farmers.” ©2013 by National Geographic Society.
Here is a lesson that we’re going to be taught again and again in the coming years: Most animals are not just animals. They’re also collections of Line microbes. If you really want to understand animals, 5 you’ll also have to understand the world of microbes inside them. In other words, zoology is ecology.
Consider the western corn rootworm—a beetle that’s a serious pest of corn in the United States. The adults have strong preferences for laying eggs in corn 10 fields, so that their underground larvae hatch into a feast of corn roots. This life cycle depends on a
continuous year-on-year supply of corn. Farmers can use this dependency against the rootworm, by planting soybean and corn in alternate years. 15 These rotations mean that rootworms lay eggs into corn fields but their larvae hatch among soybean, and die.
But the rootworms have adapted to this strategy by reducing their strong instincts for laying eggs in 20 corn. These rotation-resistant females might lay among soybean fields, so their larvae hatch into a crop of corn.
There are almost certainly genetic differences that separate the rotation-resistant rootworms from their 25 normal peers, but what are they? Researchers at the University of Illinois have been studying the problem since 2000 and, despite generating a vast mountain of data, have failed to find the genes in question. “The western corn rootworm has been an enigma for 30 a long time,” says Manfredo Seufferheld. “This insect has the ability to adapt to practically all control methods deployed against it, including crop rotation.
After many years of research about the mechanisms of rotation resistance, results were mostly 35 inconclusive.” So, Seufferheld looked elsewhere. Rather than focusing on the rootworm’s own genes, he studied the genes of the bacteria in its gut . . . and found
some answers. The rotation-resistant varieties have 40 very different gut bacteria from the normal ones. And when the team killed these microbes with antibiotics, they severely reduced the beetle’s ability to cope with rotation.
“The bad guy in the story—the western corn 45 rootworm—was actually part of a multi-species conspiracy,” says Joe Spencer, who was part of the study.
The team, including graduate student Chia-Ching Chu, found that a third of the rootworms’ gut 50 bacteria comprise species that are unique to either the resistant or normal varieties. These two factions also differ in the relative numbers of the bacteria that they share.
These different microbes give the resistant beetles 55 an edge when eating soybeans. The rootworms digest the protein in their meals using enzymes called cysteine proteases, and soybeans defend themselves with substances that can block these enzymes.
But Chu found that the more the beetles’ bacteria 60 differed from the normal set, the higher the levels of cysteine proteases in their guts. By avoiding indigestion, these beetles were better at surviving among soybeans, and more likely to lay their eggs there.
65 The team proved that the bacteria were responsible by killing them with antibiotics. Sure enough, this drastically lowered the cysteine protease activity in the guts of the rotation-resistant beetles and wrecked their ability to thrive among soybeans.
39. Over the course of the passage, the main focus shifts from a
A) statement about the challenge posed by a particular insect to an indication of why that
challenge was easy to overcome.
B) summary of a once-unexplained natural phenomenon to a biography of the scientists
who researched that phenomenon.
C) description of a problem affecting agriculture to an explanation of how scientists identified the cause of that problem.
D) discussion about a scientific field to an anecdote showing how research is done in that field.
40. The statement “zoology is ecology” (line 6) mainly serves to
A) propose that two areas of scientific knowledge be merged.
B) point out that knowledge obtained in one field of research will lead to expertise in another.
C) assert a point about biological science that is supported by the example in the passage.
D) suggest that one field of scientific research has completely supplanted another.
41. According to the passage, one similarity between rotation-resistant rootworms and normal rootworms is that they both
A) reduce crop productivity by extracting nutrients from the soil.
B) produce larvae that feed on the plant roots of crops.
C) adapt to crop rotation by maintaining high levels of enzymes in their guts.
D) contain the same quantity and composition of bacteria in their guts.
42. Which choice most clearly provides information indicating how some rootworms have overcome farmers’ efforts to eradicate them?
A) Lines 15-17 (“These… die”)
B) Lines 18-20 (“But… corn”)
C) Lines 25-28 (“Researchers… question”)
D) Lines 41-43 (“And… rotation”)
43. The central claim in the fourth paragraph (lines 23-35) is that
A) extensive study of the rootworm’s genes was insufficient to determine why some rootworms are rotation resistant.
B) the rootworm’s ability to adapt to pest control methods is unique among insects.
C) the genetic profile of rootworms is significantly more complex than researchers initially believed.
D) our current understanding of genetics is inadequate to allow researchers to understand why some rootworms are rotation resistant.
44. As used in line 24, “separate” most nearly means
A) distinguish.
B) discharge.
C) extract.
D) scatter.
45. According to the passage, the gut bacteria of rotation-resistant rootworms
A) help the rootworms survive in soybean crops.
B) are responsible for lowering the amount of cysteine protease in the rootworms’ guts.
C) make the rootworms less vulnerable to being killed by antibiotics.
D) are transferred to the larvae that hatch from the rootworms’ eggs.
46. Which choice provides the best evidence for the answer to the previous question?
A) Lines 29-30 (“The western… Seufferheld”)
B) Lines 39-40 (“The rotation-resistant… ones”)
C) Lines 44-47 (“The bad… study”)
D) Lines 54-55 (“These… soybeans”)
47. The main idea of the last paragraph is that
A) cysteine proteases are harmful to rootworms when present in large quantities in the body.
B) eggs laid by rotation-resistant rootworms will hatch into crops of soybeans.
C) bacteria unique to rotation-resistant rootworms allow them to digest soybeans.
D) rotation-resistant rootworms do not digest soybeans using cysteine proteases.
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Click to access psat-nmsqt-practice-test-2.pdf
Questions 12-22 are based on the following passage and supplementary material.
A Study in Arctic Migration
Each year, many species of shorebirds migrate from locations in the Southern Hemisphere to their breeding grounds in the 12 Arctic. A journey of thousands of
kilometers that requires frequent stops to fuel up. The risk of death is significant, and the Arctic is an inhospitable region for most of the 13 year, yet the shorebirds never failing to make their annual pilgrimage.
Come spring, the Arctic becomes a suitable habitat, providing many benefits: an abundant supply of food, permanent daylight, ample nesting space, fewer pathogens, and fewer predators to invade the nests of these ground-dwelling birds. These benefits are found in all regions of the 14 Arctic regardless of latitude yet some shorebirds continue on to the high Arctic. If these birds are simply looking for open space and enough food to eat, then why not end their long journey in the low Arctic? Continuing on to the north requires more fuel and carries an even greater risk of 15 mortality if the
birds continue on. The most likely reason certain shorebirds head to the high Arctic is to escape their predators.
12
A) NO CHANGE
B) Arctic, a
C) Arctic; a
D) Arctic; which is a
13
A) NO CHANGE
B) year, the shorebirds never fail
C) year, yet the shorebirds never fail
D) year; yet the shorebirds never failing
14
A) NO CHANGE
B) Arctic, regardless of latitude
C) Arctic, regardless of latitude,
D) Arctic: regardless of latitude,
15
A) NO CHANGE
B) mortality if they keep going.
C) mortality and death.
D) mortality.
[1] A four-year study by a team of Canadian scientists, headed by student Laura McKinnon of the Université du Québec, 16 provide evidence in support of this hypothesis. [2] The scientists created artificial nests that resembled a typical shorebird’s nest. [3] Then each year, during the shorebirds’ breeding season, forty of the nests were placed in each of seven locations that ranged in latitude from the low Arctic to the high Arctic. [4] Each nest had been baited with four 17 quail egg’s, which are similar in size and shape to a shorebird’s eggs. [5] The scientists returned to the nests many times over nine days to check how many eggs remained in the nests. [6] A nest was said to have survived if, at the end of the nine days, it contained at least one undisturbed quail egg.
16
A) NO CHANGE
B) provides
C) are providing
D) have provided
17
A) NO CHANGE
B) quail eggs,
C) quail eggs’,
D) quails eggs,
To make this paragraph most logical, sentence 5 should be placed
A) where it is now.
B) after sentence 1.
C) after sentence 2.
D) after sentence 6
The figure shows the results for the nesting 19 sites,
furthermore, at four of the seven locations, averaged over
the four years of the study. The 20 number of predators
invading the nests increased over time at each location.
This result confirmed that predators were present at the
researchers’ chosen locations. The researchers found that
the percent of 21 surviving nests was greater at locations
having higher latitudes. For example, on day 9,
approximately 55 percent of nests were found to have
survived at the 82°N location compared to approximately 10 percent of nest survival at the 63°N location. This study provides the first known quantifiable evidence for the previously unanswered question of why shorebirds
continue on to the high Arctic. 22 The shorebirds risk
their own survival by flying farther. Their offspring have a better chance of survival because fewer predators invade the nests.
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Sample tests
Related topics
Teachable moments in Boston Harbor
The king tides are back, along with high winds, and they caused some havoc in Boston – leading to a teachable moment by Boston Harbor. A massive ship broke free from dock, and had drifted out – while crewed! They were rescued by tugboats, and the boat is now stationed between Nahant and Winthrop.
This was the perfect opportunity to discuss with students where Boston Harbor was, how tides are created, how to read maps, and maritime geography.
As for those King Tides:
It’s that time of the year again. Sure, the holiday season has returned, but so have — this week, at least — the king tides. The astronomically caused ultra-high tides peaked in Boston just before noon Tuesday, according to the National Oceanic and Atmospheric Administration. Reaching more than two feet higher than average daily high tides, the seasonal occurrence produced minor flooding in low-lying areas along the East Coast.
Let’s see how the motion of the moon creates tides:
News from the Boston National Historical Park Twitter page.
News story from WCVB
http://www.wcvb.com/article/1065-foot-container-ship-breaks-free-from-boston-terminal/14186750
A container ship broke free from a terminal in Boston, the Coast Guard confirmed early Wednesday morning. The 1,065-foot ship “Helsinki Bridge” was at the Paul W. Conley Container Terminal when the 12 lines securing the vessel broke.
“They notified us very quickly. The ship’s crew was very quick in getting their engine equipment up and running so that they could drop their anchor and not be drifting around,” Coast Guard Lt. Jennifer Sheehy said.
Terminal workers who were on the ship were able to get off, and no injuries were reported. Two tug boats and a pilot helped to escort the runaway ship out to Broad Sound, between Winthrop and Nahant. State police said the ship hit a dock and did some minor damage when it broke free.
“They’ll take a look at all of the equipment. They’ll talk to the ship’s crew, and a team is at Conley Terminal looking at any damage that might be there,” Sheehy said.
Officials said weather may have played a role in the ship breaking free. “Winds that we had last night, the strength of those winds and a ship this size has a lot of sail area to push against, so it’s not unheard of for a ship this size to part ways because of the wind strength,” Sheehy said. The ship will eventually be towed back to the terminal.
See our lesson on tides, and Why Is There a Tidal Bulge Opposite the Moon?
Learning Standards
Ocean Literacy Scope and Sequence for Grades K-12
http://oceanliteracy.wp2.coexploration.org/ocean-literacy-framework/
Ocean Literacy Principle #3, The ocean interaction of oceanic and atmospheric processes controls weather and climate by dominating the Earth’s energy, water and carbon systems.
Ocean Literacy Principle #6,
b. The ocean provides foods, medicines, and mineral and energy resources. It supports jobs and national economies, serves as a highway for transportation of goods and people, and plays a role in national security.
f. Much of the worlds population lives in coastal areas. Coastal regions are susceptible to natural hazards (tsunamis, hurricanes, cyclones, sea level change, and storm surges).
Teaching protein translation
We’re teaching how DNA gets turned into mRNA, and then hooks up to tRNA with amino acids, and then forms proteins. Very important yet it’s not easy for everyone. It can be challenging for ELL and SPED students. Solution? Make it tactile: Use a large table as a cell, and pieces on the table to represent organelles and molecules.
It took time to find right graphics – but this was critical. It’s good to reinforce that cells contain many organelles, even if we’re only using a few of them in any particular lesson.
I printed them out on heavy stock paper. (I need to laminate it next time, but this was a trial run.) Cut out all the pieces.
The trick is to have many nucleotides, so they can get practice with multiple combinations. Here we have 27 bases, for 9 codons, making an 8 amino acid peptide (plus one STOP codon.)
Here is the PDF file with the graphics (DNA to mRNA to ribosome to tRNA) This is what it looks like on a table top, when students use them.
Learning Standards
2016 Massachusetts Science and Technology/Engineering Curriculum Framework
HS-LS1-1. Construct a model of transcription and translation to explain the roles of DNA and RNA that code for proteins that regulate and carry out essential functions of life.
Tier I, II and III vocabulary
What are the critical words in our lessons? These include not only new terms that we introduce in that topic, but more importantly, all of the common words that students supposedly “already know.” The problem is that many students don’t always know what these words means.
Tier One – These are everyday words – including nouns, verbs, adverbs, and adjectives – that are learned in the early grades. By the time we get to high school classes, teachers shouldn’t even need to think about teaching such vocabulary.
Tier Two – Here we go! These are high frequency words, used across content areas, that are key to a student understanding directions, understanding relationships, and for making inferences.
The problem with tier two words is that although all students read and use them, some don’t fully understand how they function.
High school teachers thus need to carefully examine student reading and verbal comprehension early on in the year, and take care to explain and model how these terms are used.
Academic language from resources.successforall.org
Tier Three – These are low-frequency, domain-specific words. These words only come up in certain subjects, or certain topics.
External resources
Worksheet: Three Tiers of Vocabulary and Education
Schrödinger’s cat
Schrödinger’s cat is a thought experiment, sometimes described as a paradox, devised by Austrian physicist Erwin Schrödinger in 1935.
It illustrates what he saw as the problem of the Copenhagen interpretation of quantum mechanics when applied to everyday objects.
Here is how the Schrödinger’s cat thought experiment works:
Acat, a flask of poison, and a radioactive source are placed in a sealed box.
If an internal monitor detects radioactivity (i.e., a single atom decaying), the flask is shattered, releasing the poison, which kills the cat.
The Copenhagen interpretation of quantum mechanics implies that after a while, the cat is simultaneously alive and dead.
Yet, when one looks in the box, one sees the cat either alive or dead, not both alive and dead.
This poses the question of when exactly quantum superposition ends and reality collapses into one possibility or the other.
The Copenhagen interpretation implies that the cat remains both alive and dead – until the state is observed.
Schrödinger did not wish to promote the idea of dead-and-alive cats as a serious possibility.
On the contrary, he intended the example to illustrate the absurdity of the existing view of quantum mechanics
Since Schrödinger’s time, other interpretations of quantum mechanics have been proposed that give different answers to the questions posed by Schrödinger’s cat of how long superpositions last and when (or whether) they collapse.
This introduction has been adapted from “Schrödinger’s cat.” Wikipedia, The Free Encyclopedia, 5 Feb. 2017.
Many-worlds interpretation and consistent histories
In 1957, Hugh Everett formulated the many-worlds interpretation of quantum mechanics, which does not single out observation as a special process.
In the many-worlds interpretation, both alive and dead states of the cat persist after the box is opened, but are decoherent from each other.
In other words, when the box is opened, the observer and the possibly-dead cat split into an observer looking at a box with a dead cat, and an observer looking at a box with a live cat.
But since the dead and alive states are decoherent, there is no effective communication or interaction between them. We have created parallel universes!
Decoherence interpretation
When opening the box, the observer becomes entangled with the cat.
Therefore “observer states” corresponding to the cat’s being alive and dead are formed; each observer state is entangled or linked with the cat so that the “observation of the cat’s state” and the “cat’s state” correspond with each other.
Quantum decoherence ensures that the different outcomes have no interaction with each other. The same mechanism of quantum decoherence is also important for the interpretation in terms of consistent histories.
Only the “dead cat” or the “alive cat” can be a part of a consistent history in this interpretation.
External resources
https://www.newscientist.com/article/2097199-seven-ways-to-skin-schrodingers-cat/
Learning Standards
SAT Subject Test: Physics
Quantum phenomena, such as photons and photoelectric effect
Atomic, such as the Rutherford and Bohr models, atomic energy levels, and atomic spectra
Nuclear and particle physics, such as radioactivity, nuclear reactions, and fundamental particles
Relativity, such as time dilation, length contraction, and mass-energy equivalence
AP Physics Curriculum Framework
Essential Knowledge 1.D.1: Objects classically thought of as particles can exhibit properties of waves.
a. This wavelike behavior of particles has been observed, e.g., in a double-slit experiment using elementary particles.
b. The classical models of objects do not describe their wave nature. These models break down when observing objects in small dimensions.
Learning Objective 1.D.1.1:
The student is able to explain why classical mechanics cannot describe all properties of objects by articulating the reasons that classical mechanics must be refined and an alternative explanation developed when classical particles display wave properties.
Essential Knowledge 1.D.2: Certain phenomena classically thought of as waves can exhibit properties of particles.
a. The classical models of waves do not describe the nature of a photon.
b. Momentum and energy of a photon can be related to its frequency and wavelength.
Content Connection: This essential knowledge does not produce a specific learning objective but serves as a foundation for other learning objectives in the course.
A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas (2012)
Electromagnetic radiation can be modeled as a wave of changing electric and magnetic fields or as particles called photons. The wave model is useful for explaining many features of electromagnetic radiation, and the particle model explains other features. Quantum theory relates the two models…. Knowledge of quantum physics enabled the development of semiconductors, computer chips, and lasers, all of which are now essential components of modern imaging, communications, and information technologies
Declining Student Resilience
It has been widely reported that middle and high-school age students are suffering from much more depression, anxiety, dysphoria, and dysmorphia. Why is this?
Some social media posts suggest that this is related to the school closures due to the Covid-19 pandemic, and temporary social isolation that resulted. But numerous studies have shown that these massively increasing psychological problems among youth began a decade before this. Covid-19 only made these already existing issues more visible.
Studies show that declining student mental health and resilience is linked with the rise in use of social media, and the corrosive way that people use it and are affected by it.
Students who spend more time on social media, instead of interacting in the real world with peers, report more anxiety, depression, body dysmorphia, gender dysphoria, and symptoms related to anorexia.
Students who spend more time with friends and family, and community groups in the real world, report much less of this. Let’s be honest and ask two questions:
How many hours a week do typical students spend on cell phones and social media?
Pay attention closely – many kids underestimate the number of hours.
How many hours a week do typical students engage in healthy fun such as
playing outdoors at recess; playing outdoors after school and on weekends
Participating in the Boy scouts, Girl scouts, 4 H club, etc.
Helping neighbors at the senior center; spending time with their grandparents
Playing a musical instrument; being in a band or chorus
spending time with friends at church or synagogue youth groups
hanging out with friends at the beach, parks, or mall. Roller skating. Anything fun in a group.
I have many years of experience as a teacher; I’ve spent a lot of time listening to students about such things. Growing up, my friends and I spent well over 20 hours a week, collectively, on these things. To my dismay, in recent years most of my students report spending almost no time doing this. Rather, it’s mostly homework, social media, or social media-via-video gaming online.
As the articles below clearly show, human beings evolved outdoors as social beings. Nothing in our evolution prepared us for sitting still seven hours a day in school without recess, or sitting still for hours each day listening to toxic messages on social media.
This realization is not old people being grumpy, not keeping up with the times. The socially indoctrinated behaviors of today’s young people are demonstrably psychologically unhealthy.
I urge teachers, school counselors, and parents to read these articles –
Declining Student Resilience: A Serious Problem for Colleges
By Peter Gray, Psychology Researcher at Boston College, September 22, 2015
A year ago I received an invitation from the head of Counseling Services at a major university to join faculty and administrators for discussions about how to deal with the decline in resilience among students.
At the first meeting, we learned that emergency calls to Counseling had more than doubled over the past five years. Students are increasingly seeking help for, and apparently having emotional crises over, problems of everyday life.
Recent examples mentioned included a student who felt traumatized because her roommate had called her a [bad name] and two students who had sought counseling because they had seen a mouse in their off-campus apartment. The latter two also called the police, who kindly arrived and set a mousetrap for them.
Faculty at the meetings noted that students’ emotional fragility has become a serious problem when it comes to grading. Some said they had grown afraid to give low grades for poor performance, because of the subsequent emotional crises they would have to deal with in their offices. Many students, they said, now view a C, or sometimes even a B, as failure, and they interpret such “failure” as the end of the world.
Faculty also noted an increased tendency for students to blame them (the faculty) for low grades—they weren’t explicit enough in telling the students just what the test would cover or just what would distinguish a good paper from a bad one. They described an increased tendency to see a poor grade as reason to complain rather than as reason to study more, or more effectively.
Much of the discussions had to do with the amount of handholding faculty should do versus the degree to which the response should be something like, “Buck up, this is college.” Does the first response simply play into and perpetuate students’ neediness and unwillingness to take responsibility? Does the second response create the possibility of serious emotional breakdown, or, who knows, maybe even suicide?
Two weeks ago, that head of Counseling sent us all a follow-up email, announcing a new set of meetings. His email included this sobering paragraph:
“I have done a considerable amount of reading and research in recent months on the topic of resilience in college students. Our students are no different from what is being reported across the country on the state of late adolescence/early adulthood. There has been an increase in diagnosable mental health problems, but there has also been a decrease in the ability of many young people to manage the everyday bumps in the road of life. Whether we want it or not, these students are bringing their struggles to their teachers and others on campus who deal with students on a day-today basis. The lack of resilience is interfering with the academic mission of the University and is thwarting the emotional and personal development of students.”
The full article is available here Psychology Today: Declining student resilience, by Peter Gray
Decline of Play and the Rise of Psychopathology in Children and Adolescents
Over the past half century, in the United States and other developed nations, children’s free play with other children has declined sharply. Over the same period, anxiety, depression, suicide, feelings of helplessness, and narcissism have increased sharply in children, adolescents, and young adults. This article documents these historical changes and contends that the decline in play has contributed to the rise in the psychopathology of young people.
Play functions as the major means by which children (1) develop intrinsic interests and competencies; (2) learn how to make decisions, solve problems, exert self-control, and follow rules; (3) learn to regulate their emotions; (4) make friends and learn to get along with others as equals; and (5) experience joy. Through all of these effects, play promotes mental health. Key words: anxiety; decline of play; depression; feelings of helplessness;
free play; narcissism; psychopathology in children; suicide
The Decline of Play and the Rise of Psychopathology in Children and Adolescents
Helicopter Parenting & College Students’ Increased Neediness
In my last post, I summarized reports from directors of college counseling services concerning college students’ rising levels of depression and anxiety; declining abilities to cope effectively with problems of everyday life; and increasing feelings of entitlement … A common theory is that these changes may be at least partly attributable to a rise in “helicopter parenting”
… The theory makes sense, logically, but is there any empirical evidence? A first step in testing the theory is to look for correlations between the style of parenting and students’ emotional and behavioral well-being. Are students whose parents are highly controlling and intrusive more likely than others to manifest the kinds of problems reported by college counselors? A number of studies have examined this question, and the results of all that I have found indicate that the answer is yes.
Helicopter Parenting & College Students’ Increased Neediness
Researchers link helicopter parenting to emotional fragility in young adults.
Peter Gray, Psychology Today, Oct 23, 2015
The Many Shades of Fear-Based Parenting
I have long been advocating, on this blog and elsewhere, for what I refer to as trustful parenting. Trustful parents allow their children as much freedom as reasonably possible to make their own decisions. They trust their children’s instincts, judgments, and ability to learn from mistakes….
The enemy of trustful parenting is fear, and, unfortunately, fear runs rampant in our society today. It runs rampant not because the world is truly more dangerous than it was in the past, but because we as a society have generated dangerous myths about dangers. We are afraid that strangers will snatch our children away if we don’t guard them constantly and that our children will be homeless, or in some other way life failures, if they don’t get all As in school, do all the proper extracurricular activities, and get into a top-ranked college…
Fear-based parenting comes in various shades, depending partly on the types of fears most prominent in the parents’ minds and partly on the parents’ personalities and economic means. Here is a list.
The Many Shades of Fear-Based Parenting, Peter Gray, Psychology Today, Mar 25, 2019
Doing More Time in School
Those who want more forced schooling ignore students’ opinions.
by Peter Gray
Kids aren’t learning much in school, so let’s make them start school when they are younger; let’s make them stay more hours in school each day and more days each year; and let’s not allow them to leave until they are at least 18 years old. Let’s do all this especially to the poor kids; they are getting the least out of school now, so let’s lengthen their time in school even more than we lengthen the time for others!…
School districts now go so far as to ban ‘tag’
Schools are contributing to mental health problems in children by banning normal, healthy forms of play and social interaction. Many now claim that even tag is too emotionally and physically dangerous to kids.
http://www.freerangekids.com/school-district-bans-tag-for-students-physical-and-emotional-safety/
Children are literally not free to play outside
From the article
As if parents don’t have enough to worry about in the midst of a pandemic, last week, I got a terribly upsetting email from a dad who wrote to say that Child Protective Services, or CPS, had come to investigate him. Not because his kids weren’t social distancing. Not because of any beatings or starvation or deliberate exposure to dangerous germs.
He was being investigated for allowing his kids, ages 6 and 3, to play on their own front lawn.
The email came to me from a dad in Texas. He wrote, “While letting my kids play in my front yard, I got CPS called on me. I wasn’t out there with them but I was going out every 5 to 10 minutes and watching through the window between checks.” When the caseworker arrived, his son made some popcorn, and the caseworker commented on how self-reliant he was. But self-reliant or not, the caseworker added, Dad had to be by his kids’ side at all times.
That is simply not true.
“Misstatements of law like this happen all around the country,” says longtime Chicago-based child welfare lawyer Diane Redleaf. “Neglect laws are intended to protect children from serious harm. That’s why it is more important than ever to get child protection policy right.”
The idea that kids can’t play on their own lawn, lightly supervised, is nonsensical in the best of times. When there’s a pandemic and kids are cooped up 24/7 for weeks at a time, it is even more important that we all understand: Kids need some play time. Parents need some work time. Even if helicopter parenting was the crazy norm before, it’s impossible now.
From Kids Deserve Playtime Without Their Parents Getting Arrested, Lenore Skenazy, The Sun (newspaper) 4/27/2020
Scientific studies of cell phone usage and mental health
Excessive Smartphone Use Is Associated With Health Problems in Adolescents and Young Adults
Yehuda Wacks and Aviv M. Weinstein*
They report that excessive cell phone usage leads to depression, anxiety, OCD, ADHD, alcohol abuse, cognitive-emotion regulation, impulsivity, impaired cognitive function, addiction to social networking, shyness and low self-esteem, sleep problems, reduced physical fitness, unhealthy eating habits, pain and migraines, reduced cognitive control and changes in the brain’s gray matter volume.
Cell phones, Teens and Mental Health
Two recent studies shed light on the negative psychological consequences of social media use.
There is no doubt that smartphone use has become pervasive in our society. In a 2018 Pew Research Center poll, 95 per cent of teens reported having access to a smart phone. Some 45 per cent of teens reported using the internet “almost constantly” (a number that has doubled compared to the 2014-2015 survey), while another 44 per cent said they go online multiple times per day.
The negative potential for social media was highlighted in two recent studies. In the first, researchers found that in a cohort of 6,595 U.S. adolescents, those who used social media more than three hours per day were at increased risk for developing mental health problems. The risk was principally seen for internalizing problems such feeling lonely, sad, depressed or anxious rather than for externalizing problems like acting out or behaviour difficulties.
The second study was an analysis of more than 12,000 teenagers in England. English teenagers were even more active on social media than their American counterparts. Two in three teens ages 15 to 16 used social media multiple times per day.
The researchers also found that teens who used social media multiple times per day were more likely to report psychological distress, less life satisfaction, less happiness and more anxiety than those who used it only weekly or less often. An interesting aspect of the study was that the negative effects of social media were more prominent in girls than boys. While both boys and girls showed an increase in psychological distress, the magnitude of the increase was higher in girls (18 per cent) than in boys (5 per cent).
Internal reflection
Physics is a deeply conceptual class. It’s not like English or History, where everyone already knows vast amounts of content before even entering. Students entering high school already knowing what a story is, what characters are, what a theme is, and what a moral is.
The human themes discussed by Shakespeare or Homer are universal. They are intuitively understood by even the least prepared of readers. Students may not know much about Elizabethan England, or ancient Greece, but they know what it means to be happy, sad, angry, or jealous. They know what it means for a character to fall in love, or to flee from their home.
When they read about a King entering a castle, and making a pronouncement to the citizens, students get it right away. Does any student ever erroneously think that “the pronouncement” is a person? That “the King” is a large object built out of wood and stone that someone lives in? That “the Castle” is a letter to be read? Of course not.
This is not so, however, with concepts in physics. Student entering a physics class often have no meaningful understanding of conservation laws, or Newton’s laws of motion. Most don’t understand why it is essential to differentiate between conservation of energy and conservation of momentum. When someone doesn’t know if a problem requires conservation of energy concepts, or kinematic equation concepts to solve a problem, that’s a like a person not knowing the difference between a King and a Castle. It is that basic.
Outside of AP Physics we usually are teaching from the ground level upwards.
No teaching method, homework assignment, or pedagogical technique has much effect on student performance – unless that student takes time to engage in internal mental reflection.
When students review at home what we learned in class,
When students think about what happened, and why it happened,
When students compare their preconceptions to what they have observed
only they are engaging in internal mental reflection.
If a student chooses not do this, then there is little a teacher can add. We can explain it for you, but we can’t understand it for you.
This is one reason why some students struggle. Doing classwork has only limited usefulness, unless one internally reflects on the subject.
How to be a good student
Chapter 12. Learning Through Reflection, by Arthur L. Costa and Bena Kallick
Learning Through Reflection
Google Scholar Search
Math is the language of physics
Mathematics is the language of physics
Natural philosophy [i.e., physics] is written in this grand book – I mean the universe – which stands continually open to our gaze, but it cannot be understood unless one first learns to comprehend the language and interpret the characters in which it is written.
[The universe] cannot be read until we have learned the language and become familiar with the characters in which it is written. It is written in mathematical language, and the letters are triangles, circles and other geometrical figures, without which means it is humanly impossible to comprehend a single word.
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Galileo, Opere Il Saggiatore p. 171
Mathematics is the language of physics. Physical principles and laws, which would take two or even three pages to write in words, can be expressed in a single line using mathematical equations. Such equations, in turn, make physical laws more transparent, interpretation of physical laws easier, and further predictions based on the laws straightforward.
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Mesfin Woldeyohannes, Assistant Professor, Western Carolina University
ἀεὶ ὁ θεὸς γεωμετρεῖ – Aei ho theos geōmetreî. God always geometrizes.
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Plato, 400 BCE, classical Greece, as quoted by Plutarch in his The Moralia, Quaestiones convivales. (circa 100 CE)
Math is so useful in the real world that it’s eerie
There is a classic paper, The Unreasonable Effectiveness of Mathematics in the Natural Sciences, that it should be read even by high school students.
Wigner begins his paper with the belief, common among those familiar with mathematics, that mathematical concepts have applicability far beyond the context in which they were originally developed.
Based on his experience, he says “it is important to point out that the mathematical formulation of the physicist’s often crude experience leads in an uncanny number of cases to an amazingly accurate description of a large class of phenomena.”
Wigner then invokes the fundamental law of gravitation as an example. Originally used to model freely falling bodies on the surface of the earth, this law was extended on the basis of what Wigner terms “very scanty observations” to describe the motion of the planets, where it “has proved accurate beyond all reasonable expectations”.
Another oft-cited example is Maxwell’s equations, derived to model the elementary electrical and magnetic phenomena known as of the mid 19th century. These equations also describe radio waves, discovered by David Edward Hughes in 1879, around the time of James Clerk Maxwell’s death.
Wigner sums up his argument by saying that “the enormous usefulness of mathematics in the natural sciences is something bordering on the mysterious and that there is no rational explanation for it”. He concludes his paper with the same question with which he began:
The miracle of the appropriateness of the language of mathematics for the formulation of the laws of physics is a wonderful gift which we neither understand nor deserve. We should be grateful for it and hope that it will remain valid in future research and that it will extend, for better or for worse, to our pleasure, even though perhaps also to our bafflement, to wide branches of learning.
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The Unreasonable Effectiveness of Mathematics in the Natural Sciences. (2016, September 11). In Wikipedia, The Free Encyclopedia
The Unreasonable Effectiveness of Mathematics in the Natural Sciences
Math is different from physics
Mathematics does not need to bother itself with real-world observations. It exists independently of any and all real-world measurements. It exists in a mental space of axioms, operators and rules.
Physics depends on real-world observations. Any physics theory could be overturned by a real-world measurement.
None of maths can be overturned by a real-world measurement. None of geometry can be.
Physics starts from what could be described as a romantic or optimistic notion: that the universe can be usefully described in mathematical terms; and that humans have the mental ability to assemble, and even interpret, that mathematical description.
Maths need not concern itself with how the universe actually works. Perhaps there are no real numbers, one might think it is likely that there is only a countable number of possible measurements in this universe, and nothing can form a perfect triangle or point.
Maths, including geometry, is a perfect abstraction that need bear no relation to the universe as it is.
Physics, to have any meaning, must bear some sort of correspondence to the universe as it is.
Why-is-geometry-mathematics-and-not-physics? Physics StackExchange, by EnergyNumbers
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