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A tiny amount of energy is typically measured in joules or calories. It is a very small quantity of energy that may be difficult to detect or measure directly, but it still plays a role in various physical and chemical processes. Examples include the energy required to move an atom or the energy released in a chemical reaction.
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Nuclear reactions produce huge amounts of energy by transfroming tiny amounts of matter?
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.
What electricity is caused by a tiny amount of imbalance of charge?
Static electricity is caused by a tiny amount of imbalance of charge, where there is an excess or lack of electrons on an object's surface. This can result in the buildup of electric potential energy that can be discharged when the object comes into contact with a conductor or another object with a different charge.
Small amounts of matter change to immense qualities of energy released by nuclear weapons?
Nuclear weapons derive their immense destructive power from the energy released through nuclear fission or fusion processes. These reactions convert a small amount of matter into energy following Einstein's famous equation E=mc^2, where a tiny amount of mass is converted into a significant amount of energy.
Tiny particles released by atoms create what type of energy?
An erg is a unit of energy equal to 10-7 joules.
How is it possible to add a lot of heat to something but not raise the temp very much?
If you have a small amount of thermal energy in a small area then the area will heat up faster. If you have the amount of thermal energy in a large area then you are hopeless. The same amount of thermal energy will be transferred to the air. But in a larger room there are always many more particles. Each particle only gets a tiny share of the extra energy. The average energy of the particles increases, but only a tiny bit. The temperature rises, but not very much. Science Focus 7 textbook
When an atomic bomb explodes the total amount of matter and energy involved increases?
A very very tiny amount of matter is removed and a very large amount of energy is produced.
What energy transformations in a tv?
A television receiver uses electrical energy, either from batteries or from the electrical outlet it's plugged into, and converts that energy into a tiny bit of light energy, a moderate amount of sound energy, and a considerable amount of heat energy.
Is electric charge a tiny amount of energy?
Depends on the amount of the electric charge and on which place it is stored. Two clouds with a big amount of a potential electric charge, one positive and the other negative, will produce a huge amount of energy represented by a lightning bolt.
The energy in the sun is created by?
Nuclear fusion. Hydrogen atoms combine to become helium, and as a product if that reaction a tiny amount of energy is released as an explosion.
Nuclear reactions produce huge amounts of energy by transfroming tiny amounts of matter?
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.
What electricity is caused by a tiny amount of imbalance of charge?
Static electricity is caused by a tiny amount of imbalance of charge, where there is an excess or lack of electrons on an object's surface. This can result in the buildup of electric potential energy that can be discharged when the object comes into contact with a conductor or another object with a different charge.
Does the brain contain electricity?
Yes, but only a tiny, tiny amount.
What is the energy transform by a microphon?
A microphone converts a tiny bit of sound energy (kinetic energy of the vibrating air) into a tiny electric current.
Is mass increased by kinetic energy?
Yes - any energy implies a corresponding increase in mass. The amount is tiny, almost insignificant, for most day-to-day phenomena. Divide the energy by c2 to get the mass. For example, you need 9 x 1016 Joule to have a mass increase of one kilogram.Yes - any energy implies a corresponding increase in mass. The amount is tiny, almost insignificant, for most day-to-day phenomena. Divide the energy by c2 to get the mass. For example, you need 9 x 1016 Joule to have a mass increase of one kilogram.Yes - any energy implies a corresponding increase in mass. The amount is tiny, almost insignificant, for most day-to-day phenomena. Divide the energy by c2 to get the mass. For example, you need 9 x 1016 Joule to have a mass increase of one kilogram.Yes - any energy implies a corresponding increase in mass. The amount is tiny, almost insignificant, for most day-to-day phenomena. Divide the energy by c2 to get the mass. For example, you need 9 x 1016 Joule to have a mass increase of one kilogram.
Small amounts of matter change to immense qualities of energy released by nuclear weapons?
Nuclear weapons derive their immense destructive power from the energy released through nuclear fission or fusion processes. These reactions convert a small amount of matter into energy following Einstein's famous equation E=mc^2, where a tiny amount of mass is converted into a significant amount of energy.
What is the relation of E equals mc square with in chemical reaction?
in the equation: E=MC2 E = Energy M = Mass C = speed of light essentially this means two things 1. Mass and Energy are interchangeable 2. For a tiny amount of Mass you get a tremendous amount of Energy This is evidenced in the Atomic bomb or the Sun where a small amount of fissionable Mass can be triggered to be converted into a huge Energy release.
In a nuclear fission reaction what is converted into energy?
In fission, the mass of the resulting atoms is slightly less than the mass of the original atom that was "split" -- this matter has been converted into energy. A tiny amount of matter is the equivalent of an enormous amount of energy, according to the formula E=Mc2.
