KCET 2024 | Atoms and Nuclei Question 7 | Physics

Consider the nuclear fission reaction ${ }_0^1 n+{ }_{92}^{235} \mathrm{U} \longrightarrow{ }_{56}^{144} \mathrm{Ba}+{ }_{36}^{89} \mathrm{Kr}+3{ }_0^1 n$. Assuming all the kinetic energy is carried away by the fast neutrons only and total binding energies of ${ }_{92}^{235} \mathrm{U},{ }_{56}^{144} \mathrm{Ba}$ and ${ }_{36}^{89} \mathrm{Kr}$ to be $1800 \mathrm{MeV}, 1200$ MeV and 780 MeV respectively, the average kinetic energy carried by each fast neutron is (in MeV)

200

180

KCET 2024

MCQ (Single Correct Answer)

-0

The natural logarithm of the activity $R$ of a radioactive sample varies with time $t$ as shown. At $t=0$, there are $N_0$ undecayed nuclei. Then, $N_0$ is equal to [Take $e^2=7.5$ ]

KCET 2024 Physics - Atoms and Nuclei Question 13 English

7500

3500

75000

150000

KCET 2023

MCQ (Single Correct Answer)

-0

In the Rutherford's alpha scattering experiment, as the impact parameter increases, the scattering angle of the alpha particle

remains the same

is always $$90^{\circ}$$

decreases

increases

KCET 2023

MCQ (Single Correct Answer)

-0

Three energy levels of hydrogen atom and the corresponding wavelength of the emitted radiation due to different electron transition are as shown. Then,

KCET 2023 Physics - Atoms and Nuclei Question 44 English

$$\lambda_3=\frac{\lambda_1 \lambda_2}{\lambda_1+\lambda_2}$$

$$\lambda_1=\frac{\lambda_2 \lambda_3}{\lambda_2+\lambda_3}$$

$$\lambda_2=\lambda_1+\lambda_3$$

$$\lambda_2=\frac{\lambda_1 \lambda_3}{\lambda_1+\lambda_3}$$

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