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The energy released when 1 kg of mass is lost can be calculated using Einstein's equation (E=mc^2). Here, (m) is the mass lost (1 kg) and (c) is the speed of light (approximately (3 \times 10^8) m/s). Plugging in the values, the energy released would be (E = 1 \times (3 \times 10^8)^2), resulting in about (9 \times 10^{16}) joules. This is an enormous amount of energy, equivalent to the energy released by several kilotons of TNT.
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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
What must occur before a radioactive atoms ceases to undergo further radioactive decay?
Before a radioactive atom ceases to undergo further radioactive decay, it must reach a stable configuration or decay into a non-radioactive isotope through the emission of particles or energy. This process continues until the atom reaches a state of stability where it no longer emits radiation.
What type of radioactive decay releases energy from the nucleus without a change of protons neutrons?
This is a gamma-decay.
What element continue to decay until they finally become stable?
All elements above the atomic number of 83 are radioactive, but two elements that are under it are also radioactive. They are technetium (atomic number 43) and promethium (atomic number 61). Radioactive elements are elements that decay until stable. =)
What is lost during radioactive decay?
Decay energy is the energy that has been freed during radioactive decay. When radioactive decay is ongoing it drops off some energy by means of discharging radiation.
Geothermal energy is caused by what type of decay?
It is Radioactive Decay.
How much energy would be released if kg of plutonium were converted to energy through radioactive decay?
4.14¹ ^ 15 J
How does energy loss and nuclear stability are related to radioactive decay?
In radioactive decay, unstable nuclei release energy in the form of radiation as they transform into more stable configurations. This release of energy is due to the conversion of mass into energy according to Einstein's famous equation, E=mc^2. As the nucleus becomes more stable through radioactive decay, it loses energy and transitions to a lower energy state.
What process is a radioactive decay?
The process of a radioactive decay is atomic nucleus of an unstable atom loses energy by emitting ionizing particles
When an atom undergoes radioactive decay the energy released in the reaction comes from what?
The energy released in radioactive decay comes from the conversion of mass from the parent atom into energy according to Einstein's famous equation, E=mc². This energy is released in the form of radiation or kinetic energy of the decay products.
How do radioactive elements produce their own energy?
The energy released in a radioactive decay arises because the nucleus is moving from one energy level to a lower energy one. The link below gives a good outline explanation in the Explanation section.
Do atom get rid of their excess energy by giving off radioactive decay?
Yes, that's more or less what happens in the case of radioactive decay.
How are energy loss and nuclear stability related to radioactive decay?
Energy loss in the form of emitted radiation during radioactive decay occurs because the nucleus becomes more stable by undergoing the decay process. The emitted radiation carries away energy and particles, resulting in a more stable nucleus with lower energy levels. Thus, radioactive decay helps to increase the overall stability of the nucleus by reducing excess energy.
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
Process by which unstable nuclei lose energy?
Radioactive decay
