How much energy (in MeV) is released when an 18F atom decays into an 18atomic number...

Magnesium-28 is a B emitter that decays to aluminum-28. How much energy is released in kJ/mol?...

Magnesium-28 is a B emitter that decays to aluminum-28. How much energy is released in kJ/mol? The atomic mass of 28Mg is 27.98388 amu, and the atomic mass of 28 Al is 27.98191 amu. Thank You!

How much energy is released when a neutron(1.67493 10-27 kg) decays into a proton (1.67262 10-27...

How much energy is released when a neutron(1.67493 10-27 kg) decays into a proton (1.67262 10-27 kg), an electron(9.10938 10-31 kg), and a neutrino of negligible mass?

how much energy is released if 13.27g of Thorium-232 decays to Lead-208

how much energy is released if 13.27g of Thorium-232 decays to Lead-208

Plutonium-239 has a half-life of 24,000 years and an atomic mass of 239.05 u. When it...

Plutonium-239 has a half-life of 24,000 years and an atomic mass of 239.05 u. When it decays to Uranium-235 an alpha particle with an energy of 5.2 MeV is released. a. How many atoms of are there in one tonne of the materia b. After 48,000 years how many atoms of are there left? c. How much energy in Joules has been released in the radioactive decays of the plutonium

Plutonium-239 has a half-life of 24,000 years and an atomic mass of 239.05 u. When it...

Plutonium-239 has a half-life of 24,000 years and an atomic mass of 239.05 u. When it decays to Uranium-235 an alpha particle with an energy of 5.2 MeV is released. How many atoms of are there in one tonne of the material. [10 pts] After 48,000 years how many atoms of are there left? [5 pts] How much energy in Joules has been released in the radioactive decays of the plutonium. [10 pts]

An atom of 49K has a mass of 48.965514 amu. Calculate the binding energy in MeV...

An atom of 49K has a mass of 48.965514 amu. Calculate the binding energy in MeV per atom. Use the masses: mass of 1H atom = 1.007825 amu mass of a neutron = 1.008665 amu 1 amu = 931.5 MeV

An electron and an antielectron (positron) each have a rest energy of 0.511 MeV , or...

An electron and an antielectron (positron) each have a rest energy of 0.511 MeV , or approximately 8.2×10-14 J . When an electron and a positron are both stationary and located next to each other during an annihilation process, their mass energy converts to electromagnetic energy released as photons, electromagnetic particles that have momentum but no mass and that travel at the speed of light. What is the minimum number of photons that could be released, and how much energy...

Find the energy (in MeV) released in the fission reaction shown below. n + 23592U →...

Find the energy (in MeV) released in the fission reaction shown below. n + 23592U → 9438Sr + 14054Xe + 2n The atomic masses of the fission products are 93.9154 u for 9438Sr and 139.9216 u for 14054Xe. MeV

A particle of rest mass energy 18 MeV decays from rest into an electron. (a) Assuming...

A particle of rest mass energy 18 MeV decays from rest into an electron. (a) Assuming that all the lost mass is converted into the electron’s kinetic energy, find ? for the electron. (b) What is the electron’s velocity? Please show all steps and equations used

Carbon-14 is unstable and decays to a differentnucleus(known as the daughter nucleusof the decay) along with...

Carbon-14 is unstable and decays to a differentnucleus(known as the daughter nucleusof the decay) along with an electron and an antineutrino (a particle with zero charge and virtually zero mass). The energy released in this decay (known as the Q-value) is found to be Q = 0.156476 MeV. Find the atomic number, the mass number, and the chemical symbol for the daughter nucleus of this decay. What is the mass of the daughter nucleus (in u)? [Hint: First find the...