Activity 27-3. Nuclear binding energy [Accompanies Section 27-3]
The energy that would be required to separate a nucleus into its individual nucleons is called the binding energy EB. The graph shows the binding energy per nucleon EB/A versus mass number A.
For each of the following processes in which nuclei are combined to make a larger one, state whether the process releases energy or requires an input of energy, and explain your reasoning.
(i) 4He + 4He + 4He → 12C
(ii) 16O + 16O → 32S
(iii) 56Fe + 56Fe → 112Te
(iv) 16O + 200Hg → 216Ra![Activity 27-3. Nuclear binding energy [Accompanies Section 27-3] The energy that would be required to separate a nucleus into](http://img.homeworklib.com/questions/c0248730-f1ed-11ea-815c-9bea160b1013.png?x-oss-process=image/resize,w_560)
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Activity 27-3. Nuclear binding energy [Accompanies
Section 27-3]
The energy that would be required to separate...
Activity 27-4. Nuclear fission (Accompanies Section 27-4] 1 A uranium nucleus (235U) absorbs a neutron. The...
Activity 27-4. Nuclear fission (Accompanies Section 27-4] 1 A uranium nucleus (235U) absorbs a neutron. The result is a uranium nucleus (236U) in an excited state. 3 The excited uranium nucleus fissions into two smaller, more tightly bound nuclei... ...as well as a few neutrons. These can trigger the fission of other 235U nuclei. 3 neutrons Neutron + 2350 236U 134 Te 9976 Z = 0 protons Z = 92 protons N = 1 neutron N = 143 neutrons A=Z+N...
Activity 27-2. Nuclear forces and nuclear binding energy [Accompanies Section 27-2] The illustration shows two different...
Activity 27-2. Nuclear forces and nuclear binding energy [Accompanies Section 27-2] The illustration shows two different nuclei that contain three 3H: 1 proton (p), 2 neutrons (n) nucleons. ?H (hydrogen-3) has one proton and two neutrons, n pn and He (helium-3) has two protons and one neutron. For the + purposes of this problem, treat the nucleons in each nucleus as lying along a line, as shown. 3He: 2 protons (p), 1 neutron (n) р n р (a) Rank the...
Activity 27-5. Nuclear fusion [Accompanies Section 27-5] In one fusion reaction that occurs in the cores...
Activity 27-5. Nuclear fusion [Accompanies Section 27-5] In one fusion reaction that occurs in the cores of certain stars, a nucleus of helium-4 (-He, with two protons and two neutrons) fuses with a nucleus of neon-20 (2°Ne, with 10 protons and 10 neutron) to form a nucleus of magnesium-24 (24Mg, with 12 protons and 12 neutrons). A gamma-ray photon (y) is also produced: He + 20Ne + 24 Mg + y (a) Rank the following nuclei in order of their...
Calculating Mass Defect and Nuclear Binding Energy
Calculating Mass Defect and Nuclear Binding Energy Learning Goal: To learn how to calculate the binding energy of a nucleus. The measured masses of nuclei are consistently lower than predicted by the sum of their particles. This discrepancy is called the mass defect, and it can be used to calculate the nuclear binding energy according to Einstein's famous equationΔE = Δmc2 where ΔE is the energy produced, Δm is the mass lost, and c 3.00 x 108 m/s. Nuclear binding energy is the energy holding the...
Calculate the nuclear binding energy (in J) and the binding energy per nucleon for the following isotope: 129 Sb (128.9091 amu) 51 10 Nuclear binding energy 27 12 Binding energy per nucleon-2.1 ucleo...
Calculate the nuclear binding energy (in J) and the binding energy per nucleon for the following isotope: 129 Sb (128.9091 amu) 51 10 Nuclear binding energy 27 12 Binding energy per nucleon-2.1 ucleon
Calculate the nuclear binding energy (in J) and the binding energy per nucleon for the following isotope: 129 Sb (128.9091 amu) 51 10 Nuclear binding energy 27 12 Binding energy per nucleon-2.1 ucleon
The illustration shows one possible way that a nucleus of uranium-235 (235U) can undergo neutron-induced fission....
The illustration shows one
possible way that a nucleus of uranium-235 (235U) can undergo
neutron-induced fission. (a) Rank the following objects in order of
their binding energy per nucleon, from largest to smallest. If any
two objects have the same binding energy per nucleon, state this.
Explain how you made your ranking. (i) The uranium-235 (235U)
nucleus (ii) The tellurium-134 (134Te) nucleus (iii) The
zirconium-99 (99Zr) nucleus (iv) The three neutrons Activity 27-4
[continued]. (b) Using your results from part...
The stability of the iron-57 nucleus is directly proportional to its binding energy. Please show work!! See Periodic Ta...
The stability of the iron-57 nucleus is directly proportional to
its binding energy.
Please show work!!
See Periodic Table (1 point) x Feedback Part 1 Given the exact mass of a 57 Fe atom is 9.4543502x10 26 kg, calculate the total nuclear binding energy in joules per mole 57 Fe nuclei x 1015 J/mol 5.12 (1 point) See Hint Part 2 Feedback Calculate the binding energy in joules per mole nucleons. x 10 13 x8.9 J/mol nucleon
See Periodic Table...
Stars generate energy through nuclear fusion. A fusion reaction is exoergic (i.e., it gives off energy)...
Stars generate energy through nuclear fusion. A fusion reaction is exoergic (i.e., it gives off energy) if the product has a lower rest energy than the original nuclei. The binding energy of a nucleus is defined as the difference between the rest energy that the individual particles would have if they were not bound in a nucleus and the rest energy of the nucleus itself. So, stated another way, fusion reactions are exoergic if the binding energy of the product...
Activity 27-7. Nuclear decays II [Accompanies Section 27-6] (a) Rank the following decays in order of...
Activity 27-7. Nuclear decays II [Accompanies Section 27-6] (a) Rank the following decays in order of the change in atomic number Z that occurs in the decaying nucleus, from most positive (greatest increase in Z) to most negative (greatest decrease in Z). If any two decays cause the same change in Z, state this. Explain how you made your ranking. (i) Alpha decay (emission of a He nucleus of charge +2e) (ii) Beta-minus decay (emission of an electron of charge...
1. (a) The mass of a nucleus is determined by using the mass spectrograph. Explain how...
1. (a) The mass of a nucleus is determined by using the mass spectrograph. Explain how the mass spectrograph works starting from the production of the ion (30 marks) (b) Given the following spectroscopic doublet values Find the mass of 'H, 2H and source. Draw a schematic diagram of the instrument 1C with 16O 16.000000 u 2(1 H)-2H 0.001 5483 u 3(2H)- 12C 0.042298 u C 4H)-160 0.0363390 u What happens to the values of 'H, 2H and as the...
Activity 27-4. Nuclear fission (Accompanies Section 27-4] 1 A uranium nucleus (235U) absorbs a neutron. The result is a uranium nucleus (236U) in an excited state. 3 The excited uranium nucleus fissions into two smaller, more tightly bound nuclei... ...as well as a few neutrons. These can trigger the fission of other 235U nuclei. 3 neutrons Neutron + 2350 236U 134 Te 9976 Z = 0 protons Z = 92 protons N = 1 neutron N = 143 neutrons A=Z+N...
Activity 27-2. Nuclear forces and nuclear binding energy [Accompanies Section 27-2] The illustration shows two different nuclei that contain three 3H: 1 proton (p), 2 neutrons (n) nucleons. ?H (hydrogen-3) has one proton and two neutrons, n pn and He (helium-3) has two protons and one neutron. For the + purposes of this problem, treat the nucleons in each nucleus as lying along a line, as shown. 3He: 2 protons (p), 1 neutron (n) р n р (a) Rank the...
Activity 27-5. Nuclear fusion [Accompanies Section 27-5] In one fusion reaction that occurs in the cores of certain stars, a nucleus of helium-4 (-He, with two protons and two neutrons) fuses with a nucleus of neon-20 (2°Ne, with 10 protons and 10 neutron) to form a nucleus of magnesium-24 (24Mg, with 12 protons and 12 neutrons). A gamma-ray photon (y) is also produced: He + 20Ne + 24 Mg + y (a) Rank the following nuclei in order of their...
Calculate the nuclear binding energy (in J) and the binding energy per nucleon for the following isotope: 129 Sb (128.9091 amu) 51 10 Nuclear binding energy 27 12 Binding energy per nucleon-2.1 ucleon
Calculate the nuclear binding energy (in J) and the binding energy per nucleon for the following isotope: 129 Sb (128.9091 amu) 51 10 Nuclear binding energy 27 12 Binding energy per nucleon-2.1 ucleon
The illustration shows one
possible way that a nucleus of uranium-235 (235U) can undergo
neutron-induced fission. (a) Rank the following objects in order of
their binding energy per nucleon, from largest to smallest. If any
two objects have the same binding energy per nucleon, state this.
Explain how you made your ranking. (i) The uranium-235 (235U)
nucleus (ii) The tellurium-134 (134Te) nucleus (iii) The
zirconium-99 (99Zr) nucleus (iv) The three neutrons Activity 27-4
[continued]. (b) Using your results from part...
The stability of the iron-57 nucleus is directly proportional to
its binding energy.
Please show work!!
See Periodic Table (1 point) x Feedback Part 1 Given the exact mass of a 57 Fe atom is 9.4543502x10 26 kg, calculate the total nuclear binding energy in joules per mole 57 Fe nuclei x 1015 J/mol 5.12 (1 point) See Hint Part 2 Feedback Calculate the binding energy in joules per mole nucleons. x 10 13 x8.9 J/mol nucleon
See Periodic Table...
Activity 27-7. Nuclear decays II [Accompanies Section 27-6] (a) Rank the following decays in order of the change in atomic number Z that occurs in the decaying nucleus, from most positive (greatest increase in Z) to most negative (greatest decrease in Z). If any two decays cause the same change in Z, state this. Explain how you made your ranking. (i) Alpha decay (emission of a He nucleus of charge +2e) (ii) Beta-minus decay (emission of an electron of charge...
1. (a) The mass of a nucleus is determined by using the mass spectrograph. Explain how the mass spectrograph works starting from the production of the ion (30 marks) (b) Given the following spectroscopic doublet values Find the mass of 'H, 2H and source. Draw a schematic diagram of the instrument 1C with 16O 16.000000 u 2(1 H)-2H 0.001 5483 u 3(2H)- 12C 0.042298 u C 4H)-160 0.0363390 u What happens to the values of 'H, 2H and as the...
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