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How much energy is released if a sample loses kg of its mass through radioactive decay?
9 × 10^13 J
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How much energy is released if a sample loses 0.025 kg mass through radioactive energy?
2.25 x 10 15j
How much energy is released if a sample 0.025 kg mass through radioactive decay?
2.25 times 10 to the 15
How much energy is released is a sample loses 0.05 kg mass through radioactive decay?
4.5 × 1015 J
How much energy is released if a sample loses 0.025 kg mass through radioactive decay?
2.25 x 10 15j
How much energy is released if a sample loses 0.025 kg of its mass through radioactive decay?
The energy released from a mass loss can be calculated using Einstein's equation, (E=mc^2). For a mass loss of 0.025 kg, the energy released would be (E = 0.025 , \text{kg} \times (3 \times 10^8 , \text{m/s})^2), which equals approximately 2.25 x 10^15 joules. This significant amount of energy illustrates the power of mass-energy conversion in radioactive decay.
How much energy is released if a sample loses 0.025 kg mass through radioactive energy?
2.25 x 10 15j
How much energy is released if a sample 0.025 kg mass through radioactive decay?
2.25 times 10 to the 15
How much energy is released is a sample loses 0.05 kg mass through radioactive decay?
4.5 × 1015 J
How much energy is released of a sample is 0.0001 Kg of its mass through radioactive decay?
9 x 10^12 J
How much energy is released if a sample loses 0.015 kg mass through radioactive decay?
1..35 x 10^15
Why is a sample of radioactive material always a little warmer than its surroundings?
Radioactive material is warmer than the surrounding material because radioactive material is constantly breaking down. When material breaks down, that means that energy is constantly getting released. When energy is released, it produces warmth.
How much energy is released if a sample loses 0.05 kg mass through radioactive decay?
4.5 × 1015 J
How much energy is rleased if a sample loses zero point zero zero zero one kg of its mass through radioactive decay?
If all the mass was last as energy the Einstein's formula (Energy = Mass * The velocity of light in a vacuum squared) will give you the energy. However in normal radioactive decay mass is also lost from the sample as alpha particle and beta particles, not energy.
How much energy is released if a sample loses 0.025 kg mass through radioactive decay?
2.25 x 10 15j
How much energy is released if a sample loses 0.025 kg of its mass through radioactive decay?
The energy released from a mass loss can be calculated using Einstein's equation, (E=mc^2). For a mass loss of 0.025 kg, the energy released would be (E = 0.025 , \text{kg} \times (3 \times 10^8 , \text{m/s})^2), which equals approximately 2.25 x 10^15 joules. This significant amount of energy illustrates the power of mass-energy conversion in radioactive decay.
How much energy is released if a sample losses 05 kg mass through readioactive decay?
The energy released through radioactive decay can be calculated using Einstein's mass-energy equivalence formula, E=mc^2, where E is the energy released, m is the mass lost (0.05 kg in this case), and c is the speed of light. Plugging in the values, the energy released would be E = 0.05 kg * (3.00 x 10^8 m/s)^2.
How much energy is released if a sample losses 0.025 kg mass through radioactive decay?
To calculate the energy released when a mass of 0.025 kg is lost through radioactive decay, we can use Einstein's mass-energy equivalence formula, (E = mc^2). Here, (m = 0.025 , \text{kg}) and (c \approx 3 \times 10^8 , \text{m/s}). Plugging in the values, we get (E = 0.025 \times (3 \times 10^8)^2 \approx 2.25 \times 10^{16} , \text{J}). Therefore, the energy released is approximately 22.5 petajoules.
