Bindign energy of proton Ep = 7.289 MeV
Q value = E (7Li) + E(p) - [E(6) + E(2D)] = 39.246+7.289 - [31.995+2.225] = 12.315MeV
Eth = -12.315*(1+7)/7 = -14.07 MeV
Eth is greater than Q(in absolute terms) as the entire Kinetic energy is not available to be dissipated as some energy is carried away by the centre of mass.
In the reaction^7Li(p, d)^6Li, the binding energies are known to be E_B(^7Li) = 39.246 MeV; E_B(^6Li)...
Two isotopes of a certain element have binding energies that differ by 13.03 MeV. The isotope with the larger binding energy contains one more neutron than the other isotope. Find the difference in atomic mass between the two isotopes. __ u
(15 markah) 1. (a) Binding energy of a nucleus is the difference in the mass energy between nucleus X and its constituent Z protons and N neutrons: From the binding energy, define proton separation energy and neutron separation energy in terms of binding energy (10 marks) SMES3201 (b) From part (a), find the binding energy per nucleon for 12C and their proton and (15 marks) (c) Sketch a graph showing the distribution of binding energy per nucleon vs (20 marks)...
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Binding energy per nucleoe (Mev per nucieon) 0/2 points Previeus Answers oscolPhys2016 31.6.P.070. G My Notes Ask Your Teacher or is among the most tightly bound of all nuclides. It is mare than 80% of natural chromkum. Note that cr has even umbers of both protons and neutrons Calculate BE the binding energy per nucleon, foror in Mev/ucleon. (Assume 1u-931 5 Mev/e Give your answer to at least three decimal places.) X Mev/nucleon Compare your...
1a. Using bond dissociation energies, calculate the heat of
reaction (ΔH) for the reaction
shown below. Show all your work and provide a reference for where
you got your bond
dissociation energy values.
1b. Is this reaction endothermic or exothermic? Explain. Provide
energy diagrams
showing the two processes. Circle the one that corresponds to this
reaction. Label the axis
appropriately as well as the activation energy (Ea).
la. Using bond dissociation energies, calculate the heat of reaction (AH) for the...
alpha decay and liquid drop model What is the reaction for alpha decay of 238U? model formula. of this reaction. Comment a. b. Compute the binding energy of all the nuclei involved in this reaction using the liquid drop c. Using the result in part (b), does the reaction occur? what is the Q (Disintegration energy) d. Repeat part (c) looking up the necessary masses instead of using the liquid drop model
alpha decay and liquid drop model What is...
d = 40cm
L = 62cm
P = 36kN
Q = 31kN
Section 3: Force and Stress (30 Points) d L P Consider the stress-strain diagram for the cylindrical specimen undergoing compression. Write your student ID# in the boxes to the left. Diameter and length are in units of centimeters. Loads P and Q are in kiloNewtons. If any of your loads are less than 10, add 30 to the value. o Q 20 MPa (4 pts) a) What is...
5. In a nuclear reaction, the total rest mass of the products is 0.004710 u greater than the total rest (1 point) mass of the reactants. Is the reaction exoergic or endoergic, and what is the reaction energy Q? Let lu=931.5 MeV. endoergic; Q=-4.387 MeV exoergic; Q=4.387 MeV endoergic; Q=4.710 MeV exoergic; Q = -1.753 MeV 7. The uranium used in nuclear reactors is "enriched." What is done to the uranium to enrich it? (1 point) The external pressure on...
1 1 J (Joule) corresponds to: A: 1.602E-19 eV B: 6.242E18 eV C: 6.242E-20 eV D: 1.602E10 GeV 2 A force acting on an object always changes its: A: Total energy B: Kinetic energy C: Rest energy D: Momentum 3 Momentum is a product of: A: Rest mass and velocity B: Relativistic mass and velocity C: Kinetic energy and velocity D: Relativistic mass and total energy 4 Relativistic mass as a function of velocity is: A: Linearly increasing B: Linearly decreasing C: Non-linearly increasing D: Non-linearly decreasing 5 The Lorentz-factor (g) is a ratio of: A: Total...
In red giant stars three helium atoms fuse together to form a carbon atom via the process 3()+. A) Calculate the Q value (in Mev) for this reaction (this is the energy in the gamma ray photons and kinetic energy of the carbon nucleus) B) Assuming the Q value represents the mass converted to energy, determine the mass lost in one reaction. C) now using the energy of betelgeuse, determine the mass lost in one reaction. D) how long can...
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energies o P Q10M.2 Consider a nitrogen (N2) molecule bouncing around a box 10 cm on a side. Pretend that the molecule can only move in one dimension. Note that the mass of an N2 mol- ecule is roughly 28 times that of a proton. (a) What is the approximate value of n for the molecules energy eigenfunction if it has an energy E0.025 eV that one would expect from random thermal motion? (b) Estimate the...