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One kilogram of uranium yields significantly more energy than one kilogram of coal. Uranium's energy density is much higher due to nuclear fission reactions, making it a more efficient energy source compared to coal, which relies on combustion for energy production.
The energy produced by fission of a uranium atom is millions of times greater than that produced by a carbon atom. Uranium fission releases a large amount of energy due to its high nuclear binding energy per nucleon, whereas carbon fission releases only a fraction of that energy. This difference in energy release is the basis for the use of uranium in nuclear power plants.
The energy produced by natural radioactive disintegration is small an important only at geological times scale.
The kinetic energy of a moving object is proportional to the square of its velocity. Therefore, the car that is 4 times faster than the slower car will have 16 times the kinetic energy compared to the slower car.
Fusion provides more energy per gram of fuel than fission. Fusion reactions release several times more energy compared to fission reactions, making fusion a more efficient and powerful energy source.
The density of water is 1 g/cm3 and the density of uranium is 19,06 g/cm3; the ratio is approx. 19.
15 times
Yes, nuclear energy generates a significant amount of energy from a small amount of fuel. Nuclear fission reactions release a large amount of energy from a small amount of uranium or plutonium. This makes nuclear energy a highly efficient source of power.
A 7.1 earthquake is approximately 10 times stronger in terms of energy release compared to a 7.0 earthquake. The Richter scale is logarithmic, meaning each whole number increase represents a tenfold increase in amplitude and roughly 31.6 times more energy released.
No, each point on the Richter scale represents a tenfold increase in amplitude and approximately 31.6 times more energy release. Therefore, a magnitude 6 earthquake has about 10 times more ground shaking and releases about 31.6 times more energy compared to a magnitude 5 earthquake.
A 9.0 earthquake is 100 times larger in magnitude than a 7.0 earthquake on the Richter scale. This means that the amplitude of ground motion and energy release is significantly higher in a 9.0 earthquake compared to a 7.0 earthquake.
it is half the height (in metres) times 3