Hydrogen cycle

November 25, 2020 1:27 pm

Like carbon, nitrogen, and phosphorus, there is also a cycle of hydrogen here on Earth. Hydrogen atoms move between biotic (living) and abiotic (non-living) sources.

Hydrogen (H) is the most abundant element in the universe.

On Earth, common H-containing inorganic molecules include water (H₂O), hydrogen gas (H₂), methane (CH₄), hydrogen sulfide (H₂S), and ammonia (NH₃).

Organic compounds contain H atoms (as well as C.)

The chemistry of the Hydrogen cycle is highly relevant to the development of life on Earth and mostly likely elsewhere in space.

Hydrogen fuels rockets, but what about power for daily life? We’re getting closer. Phys.Org

Image from, Development and testing of new materials for high temperature PEM water electrolysis, Antonio Luis Tomas-Garcia

Where does our H2 come from? (sources)

biological processes in the oceans

biological (microbial) processes in soils

photochemical production in the troposphere via CH₂O also written as H−CHO, formaldehyde.

Where does the H2 go? (sinks)

soil uptake

photochemical destruction in the troposphere by OH radicals

Free H2 can then be consumed by other microbes, oxidized photochemically in the atmosphere, or lost to space.

Cycling: H2 molecules usually exist within the atmosphere for 4 to 7 years before they get taken up in a soil sink.

Hydrogen production and leakage

As we develop hydrogen based industries, in what ways will we be producing, distributing, and using hydrogen? In what ways will hydrogen leak out into the atmosphere?

In the left column we see H2 production.

In the middle column we take into account the fact that once H2 gas is made, it needs to be distributed by trucks, ships, cargo trains, etc.

In the third column we see H2 being used by end-use customers.

Notice that in every step some H2 gas leaks out. Leaks are unintended, and unavoidable. We can minimize them but they will never be zero.

image from, Emission scenarios for a global hydrogen economy

Possible effect on ozone layer

“Increased atmospheric emissions of hydrogen will therefore inevitably lead to increased levels of water vapour in the stratosphere which will in turn lead to increased stratospheric cooling. This cooling may change the distribution of polar stratospheric clouds which play an important role in the formation of ozone holes and hence may delay the recovery of the ozone layer.”

A mitigating factor is that “The potential environmental risks from the hydrogen economy were found to be small in comparison with the environmental benefits. ” …. “the few available studies all point to the impact of large potential hydrogen leakages on the stratospheric ozone layer as being small”

– Hydrogen for Heating: Atmospheric Impacts – A literature review

Possible effect on global warming

Hydrogen gas indirectly acts as a greenhouse gas because it interferes with the global chemical reactions which control the methane levels and the formation of ozone.

Methane and ozone are the second and third most important greenhouse gases after carbon dioxide.

There is still much uncertainty about how much H2 gas would affect global warming, although the effect is currently considered to be very small.

– Hydrogen for Heating: Atmospheric Impacts – A literature review,

Possible effect on air quality

H2 is relatively inert. It offers almost no chemical reactivity with urban pollutants such as NOx, O3, SO2, CO, VOCs and suspended particulate matter. Thus it has no direct influence on urban air quality.

However, because of its reaction with hydroxyl radicals: OH + H2 → H2O + H it plays a weak role in the long-range transport of photochemical ozone. This may affect ozone levels in the lower atmosphere, although the effect is currently estimated to be very small.

Caution in relying on Hydrogen power

Using hydrogen as a source of power for vehicles certainly has its drawbacks—among them the cost and the inefficient use of energy—but researchers are now warning against hydrogen for another reason, The Guardian reports: scarcity and a subsequent dependence on fossil fuels….

“Hydrogen-based fuels can be a great clean energy carrier, yet their costs and associated risks are also great,” said Falko Ueckerdt, at the Potsdam Institute for Climate Impact Research (PIK) in Germany, who led the research.

“If we cling to combustion technologies and hope to feed them with hydrogen-based fuels, and these turn out to be too costly and scarce, then we will end up burning further oil and gas,” he said. “We should therefore prioritise those precious hydrogen-based fuels for applications for which they are indispensable: long-distance aviation, feedstocks in chemical production and steel production.”

The research, published in the journal Nature Climate Change, calculated that producing and burning hydrogen-based fuels in home gas boilers required six to 14 times more electricity than heat pumps providing the same warmth. This is because energy is wasted in creating the hydrogen, then the e-fuel, then in burning it. For cars, using e-fuels requires five times more electricity than is needed than for battery-powered cars.

text above from Researchers Warn Against Becoming Too Dependent On Hydrogen To Power Cars Elizabeth Blackstock, May 2021, Jalopnik

Using hydrogen fuel risks locking in reliance on fossil fuels, researchers warn Damian Carrington, 5/6/2021, The Guardian (UK)

Potential and risks of hydrogen-based e-fuels in climate change mitigation Falko Ueckerdt et al., Nature Climate Change volume 11, pages384–393(2021)

Hydrogen Production and Distribution Alternative Fuels Data Center, US Dept. of Energy,

Some critics of Hydrogen power

The government’s embrace of ‘clean hydrogen’ helps no one but the fossil fuel industry, Richard Denniss, The Guardian , 5/2/2021

External articles

Atmospheric researchers present new findingson the natural hydrogen cycle. CalTech

Assessing Leaks in a Global Hydrogen Infrastructure: Can it Perturb the Natural Hydrogen Cycle?

The Hydrogen Grand Challenge

Leaked hydrogen fuel could have small negative effects on atmosphere

H ydrogen fuel could widen ozone hole

Global Environmental Impacts of the Hydrogen Economy

Hydrogen Effects on Climate, Stratospheric Ozone, and Air Pollution

Impact of a possible future global hydrogen economy on Arctic stratospheric ozone loss, with graphic

What Are The Pros And Cons Of Using Hydrogen To Generate Electricity?

The Hydrogen Hoax , The New Atlantis, by Robert Zubrin

Thanks for reading. While you’re here see our other articles on astronomy, biology, chemistry, Earth science, mathematics, physics, the scientific method, and making science connections through books, TV and movies.

References

Bas van Ruijven et al., Emission scenarios for a global hydrogen economy and the consequences for global air pollution, Global Environmental Change, Volume 21, Issue 3, 2011, Pages 983-994,

Hydrogen for Heating: Atmospheric Impacts – A literature review, BEIS Research Paper Number 2018: no. 21, Dept. for Business, Energy and Industrial Strategy, UK

Learning Standards

Next Generation Science Standards

HS-LS2-4. Use mathematical representations to support claims for the cycling of matter and flow of energy among organisms in an ecosystem.

A Framework for K-12 Science Education Practices, Crosscutting Concepts, and Core Ideas (2012)

LS2.B: Cycles of Matter and Energy Transfer in Ecosystems

College Board Standards for College Success: Science

Standard ES.4 – Cycles of Matter and Energy: Matter on Earth is finite and moves through various cycles that are driven by the transformation of energy

LS.4.1 Matter Cycling – Students understand that matter is continuously recycled within the biological system and between the biological (biotic) and physical (abiotic) components of an ecosystem.

ESH-PE.4.2.2 Construct a graphical representation of the global carbon cycle (or the cycle of some other element or molecule), and use this representation to predict the effects of some environmental change (e.g., evolution of life, tectonic change, human activity) on carbon cycling (or the cycling of some other element or molecule).

Enduring Understanding 3A – Biogeochemical cycles are representations of the transport, transformation and storage of elements on a local, regional or global scale.

Birds

November 17, 2020 4:39 pm

Definition of birds

Birds are a group of warm-blooded vertebrates

They are characterized by the presence of feathers, toothless beaked jaws, the laying of hard-shelled eggs, a high metabolic rate, a four-chambered heart, and a strong yet lightweight skeleton.

Birds live worldwide; range in size from the 5 cm (2 in) bee hummingbird to the 2.75 m (9 ft) ostrich. There are about ten thousand living species.

Evolution of birds

Almost all dinosaurs went extinct about 65 million years ago (at the end of the Cretaceous Period), after living on Earth for about 165 million years.

Almost all branches of the dinosaur family tree died out, except for the branch with small feathered dinosaurs. That branch proliferated and developed into the birds that we know today.

Zina Deretsky, National Science Foundation. Air sac system of birds and of Majungasaurus.

This infographic is one way to show the relationship between various forms of dinosaurs.

It illustrates that today’s birds are the last remaining branch of the dinosaur family tree.

Image by Shawn Gould and Jen Christiansen, from How Dinosaurs Grew So Large—And So Small, John R. Horner, Kevin Padian and Armand de RicqlèS
Scientific American 293, 56 – 63 (2005)

Groups of birds

Raptors, also known as birds of prey, are birds that primarily hunt and feed on vertebrates, and that are large relative to the hunter.

Raptors have keen eyesight for detecting food at a distance or during flight, strong feet equipped with talons for grasping or killing prey, and powerful, curved beaks for tearing flesh.

The term raptor is derived from the Latin word rapio, meaning to seize or take by force.

In addition to hunting live prey, many birds, such as fish eagles, vultures and condors, eat carrion.

Condors are under vultures, in the order of Cathartiformes.

Notice that raptors, like reptiles, are not a true clade.

“There’s No Such Thing As Reptiles Any More – And Here’s Why”

Phylogeny of core landbirds modified from Mindell et al. (2018). The shaded box encompasses the raptorial grade (see text), within which we propose that all orders are considered raptors. Raptors as a group is paraphyletic and mostly share the raptorial lifestyle passed down from their single common ancestor.

Such grouping assumes then that the raptorial lifestyle was lost twice independently with the ancestors of both the Coraciimorphae and Passeriformes/ Psittaciformes clades.

Commentary: Defining Raptors and Birds of Prey

Thanks for reading. While you’re here see our other articles on astronomy, biology, chemistry, Earth science, mathematics, physics, the scientific method, and making science connections through books, TV and movies.

Learning Standards

Benchmarks for Science Literacy, American Association for the Advancement of Science

Students should begin to extend their attention from external anatomy to internal structures and functions. Patterns of development may be brought in to further illustrate similarities and differences among organisms. Also, they should move from their invented classification systems to those used in modern biology… A classification system is a framework created by scientists for describing the vast diversity of organisms, indicating the degree of relatedness between organisms, and framing research questions.

SAT Biology Subject Area Test

Evolution and diversity: Origin of life, evidence of evolution, patterns of evolution, natural selection, speciation, classification and diversity of organisms.

Teaching About Evolution and the Nature of Science, National Academy Press (1998)

Biological classifications are based on how organisms are related. Organisms are classified into a hierarchy of groups and subgroups based on similarities which reflect their evolutionary relationships. Species is the most fundamental unit of classification.

Zeroth law of thermodynamics

November 14, 2020 12:41 am

People normally think of the three laws of thermodynamics. But there is one idea that they all depend on, so basic that it often gets overlooked: the zeroth law.

This idea works like the transitive rule of algebra:

If A = B and B = C then A = C

If the temp of object A = temp of object B,

and the temp of object B = temp of object C,

then the temp of object A = temp of object C

Therefore all three systems would be in thermal equilibrium.

thermal-equilibrium Tim Sharp Zeroth Law — http://www.livescience.com/50833-zeroth-law-thermodynamics.html

Let’s watch three different materials fulfill this law, by coming into thermal equilibrium.

Animation by Charles Xie

Thermal equilibrium (in this example) is reached when the temp of all pieces = 13.4 degrees C.

http://weelookang.blogspot.sg/2012/09/the-zeroth-law-of-thermodynamics.html

Also see https://www.grc.nasa.gov/www/k-12/airplane/thermo0.html

Another way to view this:

“When body A is placed in thermal contact with body B, there will be a flow of thermal energy between the two bodies. Thermal energy will flow from the body at a higher temperature, to the one at a lower temperature, until thermal equilibrium between the two bodies is reached.”

– Loo Kang Lawrence

Thanks for reading. While you’re here see our other articles on astronomy, biology, chemistry, Earth science, mathematics, physics, the scientific method, and making science connections through books, TV and movies.

Measuring lengths in the metric system

October 29, 2020 7:01 pm

In science and engineering we often have to make measurements of distances and lengths.

Here we’re going to get a feel what various distances would actually look like in real life.

Kilometers

Kilometers is abbreviated as km.

A km is 1,000 meters.

A km is 0.62 miles, or, you can say that one mile is 1.6 km.

How can we visualize this?

A kilometer is two and a half laps around a standard 400m track.

The 400-metre dash, is a sprinting event in track and field competitions.

This image from athleticsworld.net.

We can visualize a cube, 1 km wide, by 1 km long, by 1 km high, in the middle of New York City.

Here you can see this size compared to city streets, the Empire State Building, the Burj Dubai building, and central park.

Image from 7.3 Billion People, One Building, Tim Urban, waitbutwhy.com

meters

The meter is abbreviated as m.

What kind of things are about a meter long?

image from pxfuel.com

South Georgia College Tigers, Wikipedia

centimeter

Centi means 1/100th 0.01 10^-2

The centimeter is abbreviated as cm.

It is one one-hundredth of a meter.

What kind of things are about a cm in length?

1 cm is the approximate width of average fingernail

3.5 cm is the width of film commonly used in motion pictures and still photography.

from How to load a 35mm Film SLR, ThePiece32

millimeters

milli means 1/1000th 0.001 10^-3

This is 1/1000th of a meter.

What kind of things are commonly measured in millimeters?

A millimeter is about the thickness of a plastic id card (or credit card).

from mymetalbusinesscard.com

When we have 10 millimeters, it can be called a centimeter.

micrometers

A micrometer is abbreviated as μm

micro means 1/1,000,000th 0.000001 10^-6

Just one one-millionth of a meter.

What kind of things are commonly measured in micrometers?

about as long as a Red Blood Cell

Image from http://www.dynamicscience.com.au/tester/solutions1/biology/respiratory/lungs.htm

15 µm – width of silk fiber.

A single silk fiber could be roughly 100 times thinner than the smallest thread that you see here!

(You’d need 1000 fibers wound tightly together to create a thread of these sizes.)

17 µm – minimum width of a strand of human hair

Pollen, mold, plant spores: 7 – 70 μm

70 to 180 µm – thickness of paper

nanometers

Abbreviated as nm.

nano means 1/1,000,000,000 th 0.000000001 10^-9

What kind of things are about a nanometer long?

Human fingernails grow about 1 nanometer per second.

Individual atoms are about 0.1 to 0.2 nanometers in diameter.

Here we see many atoms, each one of which is less than 1 nm wide.

image from dynamicscience.com.au

A single water molecule is about 1.5 nanometers.

https://lifebiochem1.wikispaces.com/BasicChemistry

A strand of human DNA is 2.5 nanometers in diameter.

A single hemoglobin molecule is 5 nanometers across.

A single bacterium is about 1,000 nanometers long.

Videos

Powers of Ten and the Relative Size of Things in the Universe

Computer apps

Powers of Ten (JAVA) For Windows and Macs. Check to see if this runs on Android phones or Chromebooks. Secret Worlds: The Universe Within: Molecular Expressions The size and scale of the universe htwins.net – scale of the universe

Smartphone and tablet apps

Cosmic Zoom app by Tokata. For Android and iPad Google Play Store link About cozmic zoom Powers of Minus Ten, by Dynamoid Apps. iPad app thepartnershipineducation.com Powers-of-minus-ten Link for the Apple app store

Thanks for reading. While you’re here see our other articles on astronomy, biology, chemistry, Earth science, mathematics, physics, the scientific method, and making science connections through books, TV and movies.

Learning Standards

Massachusetts Science and Technology/Engineering Curriculum Framework

Science and Engineering Practices: 5. Using Mathematics and Computational Thinking: Apply ratios, rates, percentages, and unit conversions in the context of complicated measurement problems involving quantities with derived or compound units (such as mg/mL, kg/m 3, acre-feet, etc.).

National Council of Teachers of Mathematics

Students need to develop an understanding of metric units and their relationships, as well as fluency in applying the metric system to real-world situations. Because some non-metric units of measure are common in particular contexts, students need to develop familiarity with multiple systems of measure, including metric and customary systems and their relationships.

National Science Teachers Association

The efficiency and effectiveness of the metric system has long been evident to scientists, engineers, and educators. Because the metric system is used in all industrial nations except the United States, it is the position of the National Science Teachers Association that the International System of Units (SI) and its language be incorporated as an integral part of the education of children at all levels of their schooling.

Measuring mass in the metric system

October 29, 2020 3:36 pm

In science and engineering we often have to make measurements of mass. Now, I understand that a lot of American students have affinity for the traditional English system of measurements.

But we can’t make much progress in any field of science or engineering without first becoming conversant with the metric system. It is used worldwide.

How do we measure mass? To learn practical, hands-on skills, see our lesson here.

Measuring mass with a triple beam balance

But in this lesson we’re going to get a feel what various masses would actually look like in real life.

Kilograms

A kilogram is 1,000 grams. It is abbreviated as kg.

Can we convert between kilograms and pounds…. not quite [TBA]

But if all measurements are done here on Earth then 1 kg of mass has a weight of about 2.2 pounds.

Here’s a 1 kg steak dinner

image from TripAdvisor, Outback Steakhouse, Las Vegas Blvd

How can we visualize this? About the mass of a liter bottle of water or soda.

About the mass of good size hardcover book. About the mass of a quart of Gatorade.

Or about the mass of an adult Black-Footed Ferret.

Grams

A metric unit of mass is the gram abbreviated as g.

What kind of things are about a gram in mass?