A nuclear scientist attemps to perform experiments on the stable nuclide 56Fe26. Determine the energy (in...

A nuclear scientist attemps to perform experiments on the stable nuclide 56Fe26. Determine the energy (in MeV) the scientist will need to: 1. remove a single neutron 2. remove a single proton 3. completly dismantle the nucleus into its individual nucleons 4. fission it simmetrically into two identical lighter nuclides 28Al13

Expert Solution

ANSWERS-

1) 11.191551 MeV

2) 9.666573 MeV

3) 478.705304 MeV

4) 26.885418 MeV

I am attaching images for the explanation.

queen_honey_blossom answered 2 years ago

A promising source of energy are nuclear fusion reactors (more stable and with less radioactive products...

A promising source of energy are nuclear fusion reactors (more stable and with less radioactive products than fission reactors). Their basic reaction is the fusion of two forms of heavy hydrogen into helium and a neutron: d + t → 4He + n. The deuteron (d) consists of a neutron (n) and a proton (p) bound by 2.2 MeV , the triton (t) of 2 n’s and a p bound by 8.5 MeV , and 4He of 2 n’s and...

(a) Calculate BE/A (in MeV) for 12C. Stable and relatively tightly bound, this nuclide is most...

(a) Calculate BE/A (in MeV) for 12C. Stable and relatively tightly bound, this nuclide is most of natural carbon. (Assume 1 u = 931.5 MeV/c2. Give your answer to at least 2 decimal places.) answer in MeV (b) Calculate BE/A (in MeV) for 11C. answer in MeV Is the difference in BE/A between 12C and 11C significant? One is stable and common, and the other is unstable and rare. (Assume the difference to be significant if the percent difference between...

Predict whether each of the following nuclides is stable or unstable (radioactive). If the nuclide is...

Predict whether each of the following nuclides is stable or unstable (radioactive). If the nuclide is unstable, predict the type of radioactivity you would expect it to exhibit. I have the answers but don't understand part of them. (a) 20^11_Na Stable (I understand why, the mass is too light to be stable.) But why are the types of radioactivity electron capture and positron production? Why not alpha decay too? Those three are all used when the nucleus is too light, so...

Nuclear disintegration and carbon dating. a) The rate of decay of a radioactive nuclide is proportional...

Nuclear disintegration and carbon dating. a) The rate of decay of a radioactive nuclide is proportional to the number of nuclei N present at time t, where the proportionality constant is given by the decay constant λ: dN dt = −λN Derive an expression for the number of nuclei as a function of time N, using N0 as the number of nuclei that are present initially (at t = 0). b) Derive the relationship between the half-life T1/2 and the...

Calculate the nuclear binding energy (in joules) and the nuclear binding energy per nucleon of: 113...

Calculate the nuclear binding energy (in joules) and the nuclear binding energy per nucleon of: 113 Cd 48 (112.904401 amu) (Round each final answer to 4 significant figures.) ______J _______J/nucleon

Part1. Calculate the nuclear binding energy (in J) and the nuclear binding energy per nucleon of...

Part1. Calculate the nuclear binding energy (in J) and the nuclear binding energy per nucleon of 241 Pu 94 (241.0568453 amu). Part 2. A freshly isolated sample of 90Y was found to have an activity of 8.2 × 105 disintegrations per minute at 1:00 p.m. on December 3, 2006. At 2:15 p.m. on December 17, 2006, its activity was measured again and found to be 2.2 × 104 disintegrations per minute. Calculate the half-life of 90Y.

The nuclide 236U decays with emission of an alpha particle with measured energy of 4.448 MeV...

The nuclide 236U decays with emission of an alpha particle with measured energy of 4.448 MeV and an accompanying gamma photon with measured energy of 49 keV. What is the product nucleus and does this particular decay of 236U occur to the ground state or and excited state of the product nuclide?

Nuclear fission and electrical energy Electrical energy currently produced by nuclear reactors is derived from the...

Nuclear fission and electrical energy Electrical energy currently produced by nuclear reactors is derived from the decay of 235 92U, through a process known as nuclear fission, whereby a slow-moving neutron is captured by the 235 92U nucleus, creating 236 92U. The uranium nucleus 236 92U is very unstable, and it will immediately decay into two lighter elements and release neutrons. Some of the neutrons will go on to destabilize other nuclei, creating a chain reaction. During fission reactions the...

For a renewable energy system, perform a stakeholder analysis. Determine which actors are impacted by the...

For a renewable energy system, perform a stakeholder analysis. Determine which actors are impacted by the energy system and which actors will be most likely to support the installation of the energy system. Create a table and discuss the various stakeholders and defend why they are included. Which stakeholders are most likely to support the energy system? Which stakeholders are most likely to resist the energy system? Why?

To maintain a stable weight, there must be energy balance. Energy intake is equal to energy...

To maintain a stable weight, there must be energy balance. Energy intake is equal to energy expenditure. However, when this energy balance is disrupted it can lead to individuals who are underweight or overweight. Maintaining proper energy balance involves complex interactions among several organ systems in the body. In the hypothalamus there is a satiety center and a hunger center. Leptin is an anorexigenic (i.e., satiety) signal, whereas ghrelin is an orexigenic signal (i.e., promotes appetite). Leptin is a peptide...

Question