The huge space that contains all of the matter and energy in existence is called the universe. It may also be referred to as the cosmos.
According to the law of conservation of mass, "Matter can neither be created nor be destroyed". Antimatter is also matter because it has weight and occupies space. The difference is that it has opposite charges on its particles i.e (+ve)electronand (-ve)proton.As a result of annihilation of matter and antimatter, a very very huge amount of energy is released of what you can't imagine! You can't destroy matter with antimatter but you can convert it into Energy by annihilating them.
The Sun Holds Alot Of Energy
A huge explosion, such as a supernova, can release massive amounts of energy and matter into space. As the expanding debris cools and interacts with surrounding gas, it can form a nebula - a large cloud of dust and gas. Over time, this nebula may give rise to new stars and planetary systems.
Huge baterries made by beavers
Thunder is not matter. It does not have mass and does not occupy space.Thunder is sound made up of vibrations caused by lightning, and lightning is a huge discharge of electricity.Thunder is not matter. It does not have mass and does not occupy space.Thunder is sound made up of vibrations caused by lightning, and lightning is a huge discharge of electricity.Thunder is not matter. It does not have mass and does not occupy space.Thunder is sound made up of vibrations caused by lightning, and lightning is a huge discharge of electricity.Thunder is not matter. It does not have mass and does not occupy space.Thunder is sound made up of vibrations caused by lightning, and lightning is a huge discharge of electricity.
the universe
A universe is a vast region that holds all known matter and energy, including galaxies, stars, planets, and other celestial bodies. It encompasses everything that exists, from the smallest particles to the largest structures.
Yes, nuclear reactions produce huge amounts of energy by converting a small amount of matter into energy according to Einstein's equation E=mc^2. This is the principle behind nuclear power plants and nuclear weapons.
True. Nuclear reactions involve converting a small amount of matter into energy through processes like fission or fusion, resulting in large amounts of energy release. This fundamental principle is described by Einstein's equation, E=mc^2.
Matter and energy are related through Einstein's famous equation, E=mc^2, which demonstrates that matter can be converted into energy and vice versa. This equation explains that energy and mass are essentially two forms of the same thing. When matter is converted into energy, the amount of energy produced is directly proportional to the amount of matter lost.
Albert Einstein developed the formula E=MC2 (the 2 means "squared"). That formula means that all matter is really just an extremely high concentrated form of energy. "M" is mass - all matter has mass, and C is the speed of light - 186,000 miles/second. 186,000 times 186,000 is a fantastically huge number, so this means that by multiplying that number by a really tiny piece of matter (such as an atom), it actually contains a tremendous amount of energy.
Gravity. This a known and to some extent an arguably proven fact. But there are also theories that Black holes contain Anti-matter, an entity in inverse existence to "matter".
This is possible because biomass is using chemical energy (fossil sunlight) while nuclear power is the transformation of mass into energy following Einsteins equation - Energy (in matter itself) = The mass of matter times the velocity of light squared --- E=MC2 As the velocity of light is a huge number the energy released in converting mass into energy is enormous.
Yes, nuclear reactions release a large amount of energy because a small amount of matter is converted into a significant amount of energy based on Einstein's famous equation, E=mc^2. This process is utilized in nuclear power plants and nuclear weapons.
Definitely LESS energy than a huge iceberg.
Nuclear weapons rely on a process called nuclear fission or fusion, where small amounts of matter are converted into huge amounts of energy. This process releases energy stored within atomic nuclei, leading to powerful explosions. The famous equation E=mc^2, proposed by Albert Einstein, describes this conversion of matter into energy.
If the matter absorbs light, then its internal energy increases, and it becomes warmer. But it takes a truly huge amount of light to produce a noticeable effect ... which just goes to show how sensitive our eyes are to tiny amounts of light energy.