Table of Contents
- 1 How much energy is equal to 1kg of mass?
- 2 How much energy does 1 gram of mass have?
- 3 When 1 gram of matter is completely annihilated the energy released in kwh is?
- 4 How much energy does it take to move 1kg 1 meter?
- 5 What is the correct amount of energy released from 1 gram?
- 6 How much energy is produced when the sun converts 1kg of mass into energy?
- 7 How much energy does 1g of uranium atom produce?
- 8 How much force is 100kg?
- 9 How much energy is released when a kg of matter annihillated?
- 10 What is the energy produced when 1kg is fully converted into energy?
How much energy is equal to 1kg of mass?
This implies, for instance, that 1 kilogram of matter is equivalent to an energy E = (1 kg)×(3×108 m/sec)2 = 9×1016 kg m2/sec2. An energy of 1 kg m2/sec2 is known as 1 joule, for short.
How much energy does 1 gram of mass have?
Specifically it says that if you convert 1 g of mass to energy, you get 9 x 1020 ergs of energy — (To use this just keep consistent units -i.e. Joules, Meters, Seconds, Kilograms, and Ergs, centimeters, grams, seconds.
What is produced when one kilogram of mass is fully converted into energy?
9×108J.
When 1 gram of matter is completely annihilated the energy released in kwh is?
Energy released= [{1*10^(-3)} * (3* 10^8)^2] joules = 9*10^13 joules = 90 TJ.
How much energy does it take to move 1kg 1 meter?
On earth it takes about 10 Newton-meters (N-m) of energy to raise a 1 kilogram mass to a height of 1 meter. Since 1 N-m equals 1 Joule, that’s 10 Joules. If it takes 1 second to lift the weight 1 meter, than you have converted 10 Joules of energy to potential energy in one second.
How much electric energy could theoretically be obtain by annihilation of one gram?
Annihilation requires and converts exactly equal masses of antimatter and matter by the collision which releases the entire mass-energy of both, which for 1 gram is ~9×1013 joules.
What is the correct amount of energy released from 1 gram?
5.0, 7.8, 10.5 (KCal/gm)
How much energy is produced when the sun converts 1kg of mass into energy?
The sun produces energy by nuclear fusion reactions, in which matter is converted into energy. By measuring the amount of energy we receive from the sun, we know that it is producing energy at a rate of 3.8 × 10−26 W.
How much energy is produced in annihilation?
After the annihilation, two or three gamma rays radiate from the point of collision. The amount of energy (E) produced by annihilation is equal to the mass (m) that disappears multiplied by the square of the speed of light in a vacuum (c)—i.e., E = mc2.
How much energy does 1g of uranium atom produce?
The fission of 1 g of uranium or plutonium per day liberates about 1 MW. This is the energy equivalent of 3 tons of coal or about 600 gallons of fuel oil per day, which when burned produces approximately 1/4 tonne of carbon dioxide. (A tonne, or metric ton, is 1000 kg.)
How much force is 100kg?
The correct unit for force is the Newton (=1 kg·m/s2) which is abbreviated N. So a 100 kg mass really weighs about 980 Newtons on Earth.
What is the mass and energy of the energy of annihilation?
The amount of energy (E) produced by annihilation is equal to the mass (m) that disappears multiplied by the square of the speed of lightin a vacuum (c)—i.e., E= mc2. Thus, annihilation is an example of the equivalence of mass and energy and a confirmation of the theory of special relativity, which predicts this equivalence.
How much energy is released when a kg of matter annihillated?
It’s key to understand related lung cancer conditions as it may influence prognosis & treatment efficacy. This means annihillating a kg of matter will result in the release of 1 k g ∗ 300 000 000 m / s ∗ 300 000 000 m / s joules of energy. Since there are 1000 grams in a kilogram, divide that number with 1000.
What is the energy produced when 1kg is fully converted into energy?
The energy produced when 1 kg of a substance is fully converted into energy is 9×1016J. The energy (E) of a mass to energy conversion equals the mass (m) that was converted multiplied by the speed of light (c) squared. If we choose mass in kilograms and the speed of light in meters per second, then the answer will be in joules.
What happens to the energy of a gamma ray after Annihilation?
After the annihilation, two or three gamma raysradiate from the point of collision. The amount of energy (E) produced by annihilation is equal to the mass (m) that disappears multiplied by the square of the speed of lightin a vacuum (c)—i.e., E= mc2.