Fission | HL IB Physics Topic Questions 2025

1a

3 marks

Outline the difference between spontaneous and induced fission.

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1b

3 marks

Induced fission occurs in nuclear reactors.

The structure of a nuclear reactor is shown in the diagram.

4-4-h-1a-nuclear-reactor

(i)

State the material used in the fuel rods.

[1]

(ii)

Outline the function of the control rods and the moderator.

[2]

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1c

3 marks

Explain how a chain reaction can occur in the reactor by completing the following sentences:

Nuclear fission can be induced by firing ........................... at a nucleus.

When the nucleus is struck it splits into smaller ........................... nuclei plus two or three ........................... are released which go on to initiate further fission reactions.

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1d

2 marks

Explain what happens to the energy released by fission in a nuclear reactor.

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1a

3 marks

The graph shows the relationship between the binding energy per nucleon and the mass number for various nuclides.

7-2-ib-sl-hard-sqs-q1a-question

During the process of fission, nuclei of uranium-235 are bombarded by slow-moving neutrons. When a neutron is absorbed, a nucleus of uranium-236 is momentarily formed before splitting into two fission fragments, krypton-92 and barium-141, along with the release of other fission products.

Calculate the energy released during this fission process.

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1b

2 marks

Identify the other fission products in this process and justify why they can be discounted from the calculation in (a).

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1c

4 marks

A different fission process, involving uranium–235 is again triggered by the absorption of a slow−moving neutron and releases gamma ray photons. The process is described by the equation below:

${}_{92}^{235}U + {}_{0}^{1}n \to {}_{52}^{138}{Te} + {}_{40}^{98}{Zr} + γ$

In this process, 90% of the energy released is carried away as kinetic energy of the two daughter nuclei.

The following data are available:

Mass of ${}_{92}^{235}U$ = 235.0439u
Mass of ${}_{52}^{138}{Te}$ = 137.9603u
Mass of ${}_{40}^{98}{Zr}$ = 97.9197u
Mass of ${}_{0}^{1}n$ = 1.0087u
Wavelength of $γ$ photons emitted = 2.5 × 10^–12 m

Show that approximately 32 gamma ray photons are released in this process.

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1d

2 marks

Assuming both nuclei are initially at rest, show that the ${}_{40}^{98}{Zr}$ nucleus is emitted with a speed that is about 1.4 times greater than the speed of the ${}_{52}^{138}{Te}$ nucleus.

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1a

2 marks

A nuclear fission reaction occurs that has the following equation:

${}_{0}^{1}n + {}_{92}^{235}U \to {}_{38}^{90}{Sr} + {}_{54}^{143}{Xe} + 3 {}_{0}^{1}n$

Estimate the amount of energy released during the fission reaction using the following information:

Binding energy per nucleon of Uranium-235 = 7.59 MeV/nucleon
Binding energy per nucleon of Strontium-90 = 8.70 MeV/nucleon
Binding energy per nucleon of Xenon-143 = 8.20 MeV/nucleon

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1b

4 marks

The binding energy per nucleon curve is shown: q1b_7-2_medium_ibphysics

With reference to the binding energy per nucleon curve:

(i)

Explain why fission is possible.

[2]

(ii)

Identify the source of energy released during this process.

[2]

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1c

4 marks

A uranium-235 nucleus undergoes fission into two approximately equally sized products.

Use the data from the graph in (b) to show that the energy released as a result of the fission is approximately 4 × 10⁻¹¹ J.

Use the graph to show how you have used the data.

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	binding energy per nucleon / MeV
${}_{38}^{90}{Sr}$	8.70
${}_{54}^{143}{Xe}$	8.20

Nuclide	E / MeV
${}_{92}^{235}U$	7.60
${}_{54}^{139}{Xe}$	8.39
${}_{38}^{95}{Sr}$	8.74

nucleus	binding energy per nucleon / MeV
${}_{92}^{235}U$	7.59
${}_{43}^{112}{Tc}$	8.36
${}_{49}^{122}{In}$	8.51

Nucleus	Mass / u
${}^{2}H$	2.0135
${}^{4}{He}$	4.0026

element	proton number
Br	35
Kr	36
Rb	37
Sr	38
Y	39
Zr	40

Fission (HL IB Physics)

Topic Questions