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With humans around the world trapped indoors in an effort to halt the spread of the coronavirus, satellites orbiting the earth have documented a discernible drop in air pollution. With fewer cars on the road and factories open, humankind is finally giving the planet a much-needed breather from CO2 emissions.
But there are also some unbelievable reports about nature coming from right here on earth.
People have been posting photos and videos of animals flourishing in our new less-human, and thus less-toxic, environment.
People rejoiced and showered these posts with hundreds of thousands of likes and retweets.
Fact-checkers, though, can be real killjoys.
One by one, reporters, including us at BuzzFeed News, were able to show that most of these reports were fabrications. (Except for that town in Wales overrun by goats. That is real. Thank god.)
But humans are a resourceful bunch, and in the face of this devastating letdown, a new meme was born: “nature is healing, we are the virus.”
From what we can tell, the meme started on March 26 with a tweet from Ronnie Becker, a design student in Minneapolis.
“There were tons of posts about the Venetian canals clearing up and the dolphins returning to Italy/various animals returning to typically urban areas and was annoyed by the eco-fascist statements of ‘we are the virus,'” Becker told BuzzFeed News via Twitter DM.
“I just thought of something that clearly does not belong in nature and as someone who hates the scooter share business I thought the Lime scooters in the river was perfect,” she wrote.
After Becker’s tweet went viral, a new meme was born as people showed increasingly ridiculous shots of the “natural world” returning to cities.
Reference Article: Facts about the four fundamental forces that describe every interaction in nature.
From walking on the street, to launching a rocket into space, to sticking a magnet on your refrigerator, physical forces are acting all around us. But all the forces that we experience every day (and many that we don’t realize we experience every day) can be whittled down to just four fundamental forces:
Gravity.
The weak force.
Electromagnetism.
The strong force.
These are called the four fundamental forces of nature, and they govern everything that happens in the universe.
Gravity
Gravity is the attraction between two objects that have mass or energy, whether this is seen in dropping a rock from a bridge, a planet orbiting a star or the moon causing ocean tides. Gravity is probably the most intuitive and familiar of the fundamental forces, but it’s also been one of the most challenging to explain.
Isaac Newton was the first to propose the idea of gravity, supposedly inspired by an apple falling from a tree. He described gravity as a literal attraction between two objects. Centuries later, Albert Einstein suggested, through his theory of general relativity, that gravity is not an attraction or a force. Instead, it’s a consequence of objects bending space-time. A large object works on space-time a bit like how a large ball placed in the middle of a sheet affects that material, deforming it and causing other, smaller objects on the sheet to fall toward the middle.
Though gravity holds planets, stars, solar systems and even galaxies together, it turns out to be the weakest of the fundamental forces, especially at the molecular and atomic scales. Think of it this way: How hard is it to lift a ball off the ground? Or to lift your foot? Or to jump? All of those actions are counteracting the gravity of the entire Earth. And at the molecular and atomic levels, gravity has almost no effect relative to the other fundamental forces.
The weak force, also called the weak nuclear interaction, is responsible for particle decay. This is the literal change of one type of subatomic particle into another. So, for example, a neutrino that strays close to a neutron can turn the neutron into a proton while the neutrino becomes an electron.
Physicists describe this interaction through the exchange of force-carrying particles called bosons. Specific kinds of bosons are responsible for the weak force, electromagnetic force and strong force. In the weak force, the bosons are charged particles called W and Z bosons. When subatomic particles such as protons, neutrons and electrons come within 10^-18 meters, or 0.1% of the diameter of a proton, of one another, they can exchange these bosons. As a result, the subatomic particles decay into new particles, according to Georgia State University’s HyperPhysics website.
The weak force is critical for the nuclear fusion reactions that power the sun and produce the energy needed for most life forms here on Earth. It’s also why archaeologists can use carbon-14 to date ancient bone, wood and other formerly living artifacts. Carbon-14 has six protons and eight neutrons; one of those neutrons decays into a proton to make nitrogen-14, which has seven protons and seven neutrons. This decay happens at a predictable rate, allowing scientists to determine how old such artifacts are.
The force that keeps a book on top of a table (instead of gravity pulling the book through to the ground), is a consequence of the electromagnetic force: Electrons in the table’s atoms repel electrons in the book’s atoms. (Image credit: NASA/Shutterstock)
Electromagnetic force
The electromagnetic force, also called the Lorentz force, acts between charged particles, like negatively charged electrons and positively charged protons. Opposite charges attract one another, while like charges repel. The greater the charge, the greater the force. And much like gravity, this force can be felt from an infinite distance (albeit the force would be very, very small at that distance).
As its name indicates, the electromagnetic force consists of two parts: the electric force and the magnetic force. At first, physicists described these forces as separate from one another, but researchers later realized that the two are components of the same force. Advertisement
The electric component acts between charged particles whether they’re moving or stationary, creating a field by which the charges can influence each other. But once set into motion, those charged particles begin to display the second component, the magnetic force. The particles create a magnetic field around them as they move. So when electrons zoom through a wire to charge your computer or phone or turn on your TV, for example, the wire becomes magnetic.
Electromagnetic forces are transferred between charged particles through the exchange of massless, force-carrying bosons called photons, which are also the particle components of light. The force-carrying photons that swap between charged particles, however, are a different manifestation of photons. They are virtual and undetectable, even though they are technically the same particles as the real and detectable version, according to the University of Tennessee, Knoxville.
The electromagnetic force is responsible for some of the most commonly experienced phenomena: friction, elasticity, the normal force and the force holding solids together in a given shape. It’s even responsible for the drag that birds, planes and even Superman experience while flying. These actions can occur because of charged (or neutralized) particles interacting with one another. The normal force that keeps a book on top of a table (instead of gravity pulling the book through to the ground), for example, is a consequence of electrons in the table’s atoms repelling electrons in the book’s atoms.
The force that keeps a book on top of a table (instead of gravity pulling the book through to the ground), is a consequence of the electromagnetic force: Electrons in the table’s atoms repel electrons in the book’s atoms. (Image credit: NASA/Shutterstock)
The strong nuclear force
The strong nuclear force, also called the strong nuclear interaction, is the strongest of the four fundamental forces of nature. It’s 6 thousand trillion trillion trillion (that’s 39 zeroes after 6!) times stronger than the force of gravity, according to the HyperPhysics website. And that’s because it binds the fundamental particles of matter together to form larger particles. It holds together the quarks that make up protons and neutrons, and part of the strong force also keeps the protons and neutrons of an atom’s nucleus together.
Much like the weak force, the strong force operates only when subatomic particles are extremely close to one another. They have to be somewhere within 10^-15 meters from each other, or roughly within the diameter of a proton, according to the HyperPhysics website. Advertisement
The strong force is odd, though, because unlike any of the other fundamental forces, it gets weaker as subatomic particles move closer together. It actually reaches maximum strength when the particles are farthest away from each other, according to Fermilab. Once within range, massless charged bosons called gluons transmit the strong force between quarks and keep them “glued” together. A tiny fraction of the strong force called the residual strong force acts between protons and neutrons. Protons in the nucleus repel one another because of their similar charge, but the residual strong force can overcome this repulsion, so the particles stay bound in an atom’s nucleus.
The outstanding question of the four fundamental forces is whether they’re actually manifestations of just a single great force of the universe. If so, each of them should be able to merge with the others, and there’s already evidence that they can.
Physicists Sheldon Glashow and Steven Weinberg from Harvard University with Abdus Salam from Imperial College London won the Nobel Prize in Physics in 1979 for unifying the electromagnetic force with the weak force to form the concept of the electroweak force. Physicists working to find a so-called grand unified theory aim to unite the electroweak force with the strong force to define an electronuclear force, which models have predicted but researchers have not yet observed. The final piece of the puzzle would then require unifying gravity with the electronuclear force to develop the so-called theory of everything, a theoretical framework that could explain the entire universe.
Physicists, however, have found it pretty difficult to merge the microscopic world with the macroscopic one. At large and especially astronomical scales, gravity dominates and is best described by Einstein’s theory of general relativity. But at molecular, atomic or subatomic scales, quantum mechanics best describes the natural world. And so far, no one has come up with a good way to merge those two worlds.
Physicists studying quantum gravity aim to describe the force in terms of the quantum world, which could help with the merge. Fundamental to that approach would be the discovery of gravitons, the theoretical force-carrying boson of the gravitational force. Gravity is the only fundamental force that physicists can currently describe without using force-carrying particles. But because descriptions of all the other fundamental forces require force-carrying particles, scientists expect gravitons must exist at the subatomic level — researchers just haven’t found these particles yet.
Further complicating the story is the invisible realm of dark matter and dark energy, which make up roughly 95% of the universe. It’s unclear whether dark matter and energy consist of a single particle or a whole set of particles that have their own forces and messenger bosons.
The primary messenger particle of current interest is the theoretical dark photon, which would mediate interactions between the visible and invisible universe. If dark photons exist, they’d be the key to detecting the invisible world of dark matter and could lead to the discovery of a fifth fundamental force. So far, though, there’s no evidence that dark photons exist, and some research has offered strong evidence that these particles don’t exist.
Many physicists aim to unite the fundamental forces under a single, unified theory — a theoretical framework that could explain the entire universe. (Image credit: Shutterstock)
Read more about how the fundamental forces work in the Standard Model, from CERN.
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The Ministry of Environment and Forestry has broken the forestry cooperation relationship with WWF Indonesia. As of October 5, 2019, the cooperation made through the MoU on March 13, 1998 has been stopped and is no longer valid. No later than December 2019, physical and administrative activities in the field must stop completely.
WWF Indonesia received a bitter and embarrassing gift from the Ministry of Environment and Forestry. This large conservation institution that is an independent part of the WWF International conservation organization network may no longer carry out biodiversity conservation activities in forest areas throughout Indonesia. In fact, the institution with assets of IDR 147 billion with revenues of IDR 341 billion in 2018 has 34 field offices in 17 provinces with 477 employees, plus 100,000 more supporters.
Even more painful, before the issuance of the letter of termination of cooperation number S.1221/Menlhk-Secretary General/Rokln/Kln.0/10/2019 dated October 4, 2019 signed by the Secretary General of the Ministry of LHK Bambang Hendroyono, Minister Siti Nurbaya had also sent radiograms to all governors and the regent/mayor as of September 19, 2019. The radiogram that was passed to President Joko Widodo, the Minister of the Interior and the Minister of Foreign Affairs asked the regional heads not to cooperate with WWF.
Minister Siti in her signed letter wrote, “Local governments are asked to pay attention to the development of WWF’s collaborative activities in the past year.”
Mr Hendroyono when confirmed the letter of termination of cooperation. However, he tried to refuse answered by calling WWF activities still running until December. What will happen next? “Later, depending on how the results of the evaluation,” he replied.
In fact, the termination of cooperation — according to letter S.1221/2019 signed by Mr Hendroyono — has already been mentioned based on the results of the initial evaluation of the UPT (Technical Implementation Unit) and the Ministry of LHK team.
What’s actually happened? From a number of explanations, WWF is considered to be “too far”, for example in making an MoU on the establishment of a Project Management Office (PMO) with the Office of the Coordinating Minister for the Economy to accelerate the process of Agrarian Reform and Social Forestry (RAPS). Not to mention the case of cooperation with the Papua Natural Resources Conservation Agency (BKSDA).
Later, when the forest and land fires heats up, the WWF has even been impressed by the “signal”. Through WWF warriors who are also celebrities, such as Luna Maya, WWF is suing the apparatus to extinguish fires in the Bukit Tigapuluh landscape, Jambi. In fact, the hotspots uploaded by the celebrities occurred in the PT Alam Bukit Tigapuluh (ABT) concession, a forest concession that was managed by the WWF consortium.
On the other hand, WWF Indonesia claimed to be confused with the Ministry of Environment and Forestry’s decision. “To be sure, we do not know (what causes it) because the information we received is confusing. We hope to meet with the Minister and her staff to get clarification,” said Director of Policy and Advocacy of WWF Indonesia, Aditya Bayunanda, Friday (11/10/2019).
Meanwhile, the Executive Director of the Wahana Lingkungan Hidup (Walhi) Jambi, Rudiansyah, believes that based on the reference to the letter addressed to the local government, an evaluation must be carried out immediately to find out WWF’s performance in conservation efforts, especially in forest and land fires. For example, the Londerang forest in Tanjung Jabung Timur District, the largest peat land restoration area in Jambi.
“We do not see that the cooperation has a positive effect, for example in the ABT concession where the area is burned every year, and social conflicts with the people there are not carried out properly. This means that absolute accountability is not carried out,” he said, Wednesday (2/10/2019).
In a letter issued by the Minister of Environment and Forestry, it was stated that WWF’s work orientation concerning biodiversity based on Law Number 23 of 2014 Article 360, and conservation matters are the responsibility of the central government. Then the regional head was asked not to sign cooperation with WWF without consulting with the Minister of Environment and Forestry in order to maintain jurisdiction and over claimed the success of the collaboration as it happened.
WWF Indonesia Foundation is the largest shareholder of PT Panda Lestari, which is 4,598 shares valued at IDR 4,598,000,000. PT Panda Lestari is the majority (controlling) shareholder of PT ABT, which burned 20 hectares. The company operates under the Business Permit for the Utilization of Timber Forest Products-Ecosystem Restoration in Natural Forests (IUPHHK-Ecosystem Restoration), and is the only holder of the burned IUPHHK-RE. In addition, WWF Indonesia is involved in social conflict with the community. A police report was filed on September 8, 2019, with alleged acts of violence perpetrated by persons from PT ABT against the community.
Some parties consider, the termination of cooperation carried out by the government, in this case the Ministry of Environment and Forestry, is a defeat of the struggle for forest conservation in Indonesia. The steps taken by the Ministry of Environment and Forestry may be a sign to NGOs that the government is not reluctant to evaluates their performances. NGOs always imaged itself as a container of public criticism about the sustainability of nature, but in practice, it is not merely about saving forests.
What should be underlined, if NGOs are present as an effort to preserve the environment, a commitment to continue running on the rails in accordance with these ideals and expectations, is a fixed price.
We ARE Nature 