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92Au 282Xe +13S
Uranium 238 is transformed in thorium 234 by alpha decay.
bismuth 210 decays by beta decay to polonium 210 that decays by alpha decay to lead 206
Isotopes of rutherfordium.
No. Decay is the process, radiation is the product.
90Th232 undergoes alpha decay to form 88Ra228. Remember, in alpha decay, a helium nuclei is emitted, comprising two protons and two neutrons. As a result, the atomic number goes down by 2, and the atomic mass number goes down by 4.
92Au 282Xe +13S
Thorium 234: Beta decay. Atomic number increases by 1.
S-34 is stable. It will not decay.
Uranium 238 is transformed in thorium 234 by alpha decay.
bismuth 210 decays by beta decay to polonium 210 that decays by alpha decay to lead 206
Isotopes of rutherfordium.
No. Decay is the process, radiation is the product.
Nope, Neodymium-144 undergoes Alpha decay to Cerium-140.
Bismuth-214 produces Polonium-214 by beta- decay. It also produces Thallium-210 by alpha decay, though at a much smaller percentage.
There is no equation. Calcium-42 is stable and does not decay. Calcium is also much to light for alpha decay, which requires elements heavier than nickel, so no isotope of calcium undergoes alpha decay.
The only possible product of the alpha decay of 92238U is 90234Th.