Much of President Biden's agenda is on hold, much due to a rich coal baron from West Virginia.
'The idea of eliminating fossil fuels is “very, very disturbing”, Manchin said in July when specifics of Biden’s climate agenda surfaced.' (The Guardian, September 30, 2021)
He is also firmly against handing out money to the poor, using the stalemate in the Senate to block Biden's Build Back Better plan.
'His goal, Mr. Manchin later said, was to avoid “basically changing our whole society to an entitlement mentality.”
Mr.
Manchin’s language has inflamed tensions within the Democratic caucus.
Senator Bernie Sanders, a Vermont independent, declared: “I believe that
seniors having teeth in their mouth, or children having child care is
not entitlement. It’s justice.”' (New York Times, October 8, 2021)
Which of course brings us back to Ebenezer Scrooge, who had this to say when approached by two charity volunteer in Charles Dickens' A Christmas Carol.
"At this festive season of the year, Mr. Scrooge," said the gentleman, taking up a pen, "it is more than usually desirable that we should make some slight provision for the poor and destitute, who suffer greatly at the present time. Many thousands are in want of common necessaries; hundreds of thousands are in want of common comforts, sir.”
"Are there no prisons?" asked Scrooge.
"Plenty of prisons," said the gentleman, laying down the pen again.
"And the Union workhouses?" demanded Scrooge. "Are they still in operation?"
"They are. Still," returned the gentleman, "I wish I could say they were not."
"The Treadmill and the Poor Law are in full vigour, then?" said Scrooge.
"Both very busy, sir."
"Oh! I was afraid, from what you said at first, that something had occurred to stop them in their useful course," said Scrooge. "I am very glad to hear it."
"Under the impression that they scarcely furnish Christian cheer of mind or body to the multitude," returned the gentleman, "a few of us are endeavouring to raise a fund to buy the Poor some meat and drink, and means of warmth. We choose this time, because it is a time, of all others, when Want is keenly felt, and Abundance rejoices. What shall I put you down for?"
"Nothing!" Scrooge replied.
"You wish to be anonymous?"
"I wish to be left alone," said Scrooge. "Since
you ask me what I wish, gentlemen, that is my answer. I don't make merry myself at Christmas, and I can't afford to make idle people merry. I help to support the establishments I have mentioned--they cost enough; and those who are
badly off must go there."
"Many can't go there; and many would rather die."
"If they would rather die," said Scrooge, "they had better do it, and decrease the surplus population. Besides--excuse me--I don't know that."
"But you might know it," observed the gentleman.
"It's not my business," Scrooge returned. "It's enough for a man to understand his own business, and not to interfere with other people's.
Mine occupies me constantly. Good afternoon, gentlemen!"
"Manchin, the Democratic senator from West Virginia — whose vote is essential given scorched-earth Republican opposition to anything Biden might propose — is reportedly against the Clean Energy Payment Program, the core of Biden’s attempt to take action on climate change, and wants to impose work requirements on the child tax credit, a key element in plans to invest in the nation’s children."
(Originally published in the Swedish computer newspaper Datornytt in the
summer of 1990)
Supercomputers Track the Greenhouse Effect
The climate researcher
Syukoro Manabe doesn’t eat a lot. However, his appetite for data hardly knows any
limits, which is why it helps to have access to a Cray Y-MP/832. But will this $25
million supercomputer be able to erase the question marks about the greenhouse
effect?
Mankind has since the 1800
hundreds pumped evermore carbon dioxide, methane gas and hydrocarbons into the atmosphere,
trapping heat that otherwise should have escape into space. This is the so-called
greenhouse effect that many researchers fear will devastate the Earth’s
climate.
There is an intense
debate and growing political interest around the greenhouse effect. Is it real,
and if so, how fast is the global warming? Researchers are increasingly relying
on supercomputers to answer these questions.
“I can’t imagine modern
atmospheric and climate science without computers,” says Dr. Syukoro Manabe
when I meet him in Princeton, New Jersey, in late May.
He has worked on
advanced computer models to study the climate for about a quarter century. In
1966, he and Richard T. Wetherald managed to use computer simulations to
demonstrate that the Earth’s average temperature would grow by 4 degrees Celsius
(7.2 degrees Fahrenheit) if the level of CO2 (carbon dioxide) in the
Earth’s atmosphere doubled (compared to the period before the industrialization).
Today, Manabe is head
of the greenhouse research at the Geophysical Fluid Dynamics Laboratory (GFDL) in
Princeton, New Jersey. It is one of the leading centra for climate research in
the U.S. and belongs to the National Oceanic and Atmospheric Administration,
which belongs to the U.S. Department of Commerce.
The GFDL is not as
large as the National Center for Atmospheric Research (NCAR) in Boulder, Colorado,
but being small can be a benefit.
“I had over 100
hundred hours supercomputer time left over last month,” says Ronald J. Stouffer,
who is one of a handful researchers in Manabe’s group. They have since mid-May had
the privilege of hooking up their Sun workstations to one of the largest Cray
computers. For the moment they have all the computer power they could wish for.
If there is anything they do wish for, it is more storage capacity and better
tools for analyzing the data.
“Things are going to
get better,” Lou Umscheid reassures us. He is responsible for the computer
systems at GFDL. At the moment, they are evaluating a Silicon Graphics graphical
workstation.
“We realize that we
need the most advanced technology possible to analyze the data coming out of
the supercomputer,” he says. “The problem is that we don’t have software for our
particular applications. We need to do quite a bit of adaptation work.”
“It will take time
before we have three-dimensional graphics, color and so on, but there are still
a lot of things we can do with our Sun workstations,” Umscheid says.
Personally, Syukoro
Manabe, doesn’t have a lot of direct contact with computers. He is the only one
in the team that doesn’t have a workstation and says that he mostly walks
around bouncing off questions to the members of the group. He says that people
once thought he was going to far in using computers and building too
complicated climate models. Today it’s the other way around.
“It’s not I that have
changed,” he says.
What role do
supercomputers play for our understanding of climate change?
“We are trying to track
the atmospheric circulation, which is ruled by physical laws, using
hydrodynamic equations. We need supercomputers to be able to solve these
equations as exactly as possible,” he says.
Researchers at GFDL use
a theoretical model that describes the atmospheric development through an imagined
grid covering the Earth. Flows into and between the grid’s climate boxes decides
the global climate. This is called hydrodynamics.
Manabe says that the
next goal in building the model is to integrate the atmospheric development with
that of the world’s oceans. The latter have a huge impact on the climate since
the absorb, reallocate (surface and deep-water currents), and gives off large
amount of heat.
“The faster supercomputers
we have, the higher resolution we can use in our models, which gives us more
precise answers,” he says.
So far, they have used
grids where each box is 400 by 400 kilometers. With the new Cray computer, it
is possible to use a twice as fine-grained net, using 200 by 200 kilometers as
the base.
“We are using exactly
the same mathematical operation for each atmospheric box, why this is an ideal
situation for computers with parallel processors,” Manabe says. “Which is why
we will probably switch to massively parallel computers in the future.”
He is thinking of machines
like Thinking Machines’ Connection Machine that has 65,000 simple processors,
but costs only a fraction of a Cray.
Why haven’t you
already done that?
“We want other people
to be the Guinea pigs so we can learn from their experiences! We don’t want to
do the mistakes. Another reason is that the Cray Y-MP is more versatile.”
“More powerful
computers give us a better understanding of what happens (in the model),” he
says. “Instead of conducting one experiment, you can do ten. If you have eight
processors, you can run eight experiment concurrently. You can do sensitivity
studies by varying different parameters. You can study what role different
parameters play for the climate, which helps you understand feedback in the
system.”
The science is moving
forward thanks to more powerful computers, but Manabe warns against excessive
belief in what computers can do.
“People ask if we can
improve the precision in the model with more powerful computers. Yes, I say,
but it would be highly misleading to say that it is the only thing we can do,”
he says.
The climate model
Manabe’s group is working on consists of two parts. Once consists of hydrodynamic
equations that describe known physical connections. Here better computers generally
deliver better results. The other part contains components that are less well known
or cannot as easily be described in terms of physical laws. There are many
kinds of feedback between the Earth, the atmosphere, and the oceans, presenting
very difficult problems for the researchers and their computer models.
“For example, how does
a cumulus cloud affect the state of the atmosphere? How do you treat the heat
exchange between the surface of the Earth and the atmosphere? The Earth is
covered by trees and land, which makes the whole thing very complicated,” Manabe
says.
“Such problems cannot
be solved through more computer power. We must conduct field experiments,
theoretical studies, diagnostic studies, to figure out how to describe these
processes in our models,” Manabe says.
“There will remain uncertainties
about the prognoses of the future climate for a long time,” he says.
Forever?
“Yes! Assume that you
have a perfect model. But how can you know that it is perfect, when every model
is a simplified version of reality? You don’t know which impact that simplification
has on your prognosis. How should we value the effect of your ignorance about
those parts where we don’t understand the laws of physics well enough?”
He warns against the
tendency to respond to uncertainty by adding more and more supporting
assumptions to the model.
“The computer is
powerful, but it is a double-edged sword. It can hurt us! The trend today is to
stuff the model with as much as possible now that the computers are so powerful.
This without knowing the consequences.”
“I worry about the uncontrolled
march towards ‘complistic’ models. Simplistic models are also dangerous, but
right now I am more concerned about ‘complistic” people.”
“People put in
everything they can see through the window,” Manabe says. “You can’t do it with
the hydrodynamic models, but you can put in lots of different assumptions when
dealing with processes on the ground, cumulus clouds and other things that we
don’t know how to handle. You create very complicated algorithms, but who know
how many programming errors there is in the model?
“People think you can
do experiments where you include everything like you are throwing ingredients
into a pizza. I don’t like such ideas.,” he says.
“Then they have the
model make a random prediction and claim that this is the most sophisticated,
complicated model in the world. Hence it must be right. But the main thing is
to understand what is going on in the model. Can you trust it?”
“Nobody should believe
that the world’s most complicated model will let us go to Mount Sinai like another
Moses and get the answer straight from God,” he says sarcastically.
Is there a risk the strong
political interest will corrupt the greenhouse research?
“Yes, people will feel
that they are in such a hurry that they don’t have time to try to understand
what they are doing. People are traveling too much (to give speeches at
conferences).”
“We have such a beautiful
computer. For it to be worth the effort, we better sit by our desks and do our
job.”
Hans Sandberg
Dr. Manabe gets the call from the Swedish Academy.
En bussresa till Indien (1974) -- Nu på Amazon
-
Femtio år har gått sedan vi stod och väntade på bussen som skulle ta oss på
en 11 000 km lång resa från Stockholm till New Delhi. Det var den tredje
sept...
Antecknat - 15 oktober 1946
-
På 1600-talet fanns inte någon hållbar gränsfärg
Kromoxid färg är den mest hållbara färg man kan få.
Grönjord är också en bra fast tunnare. Det är inte ba...
All texts and photos on my blog (except for reader feedback, YouTube clips, and photos of Currents magazine) are produced by me. Feel free to quote from my texts, and link to this blog, but if you would like to use the texts, or photos, please ask first.