(A) Statement $I$ is correct because according to Bohr's postulate,the angular momentum of an electron in a stationary orbit is an integral multiple o

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Both Statement $I$ and Statement $II$ are correct.

(A) Statement $I$ is correct because according to Bohr's postulate,the angular momentum of an electron in a stationary orbit is an integral multiple of $\frac{h}{2\pi}$,i.e.,$mvr = \frac{nh}{2\pi}$.Statement $II$ is correct because Bohr's model assumes electrons move in well-defined circular orbits with fixed velocity and position,which directly contradicts the Heisenberg uncertainty principle,which states that it is impossible to determine simultaneously the exact position and momentum of a subatomic particle.

Class 11 Chemistry Structure of Atom Uncertainty principle and Schrodinger wave equation

Medium

Given below are two statements:
Statement $I:$ According to Bohr's model of hydrogen atom,the angular momentum of an electron in a given stationary state is quantised.
Statement $II:$ The concept of electron in Bohr's orbit,violates the Heisenberg uncertainty principle.
In the light of the above statements,choose the most appropriate answer from the options given below:

JEE MAIN 2023 All JEE MAIN

A
Both Statement $I$ and Statement $II$ are correct.
B
Statement $I$ is correct but Statement $II$ is incorrect.
C
Statement $I$ is incorrect but Statement $II$ is correct.
D
Both Statement $I$ and Statement $II$ are incorrect.

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Structure of Atom

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Uncertainty principle and Schrodinger wave equation

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The uncertainty in the position of an electron (mass = $9.1 \times 10^{-31} \, kg$) moving with a velocity of $300 \, ms^{-1}$ with an accuracy of $0.001 \%$ is ...... $(h = 6.63 \times 10^{-34} \, Js)$

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Given: The mass of an electron is $9.1 \times 10^{-31} \ kg$,Planck's constant is $6.62 \times 10^{-34} \ J \cdot s$. The uncertainty involved in the measurement of velocity within a distance of $0.1 \ \mathring{A}$ is:

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If the position of the electron was measured with an accuracy of $\pm 0.002 \ nm$,the uncertainty in the momentum of it would be (in $kg \ ms^{-1}$) $(h=6.626 \times 10^{-34} \ J \ s)$.

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In the polar coordinates of the Schrodinger equation,the angle between the radius vector and the $Z$-axis is known as ..........

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The effect of the uncertainty principle is significant only for the motion of microscopic particles and is negligible for macroscopic particles. Justify the statement with the help of a suitable example.

The uncertainty in the position of an electron (mass = $9.1 \times 10^{-31} \, kg$) moving with a velocity of $300 \, ms^{-1}$ with an accuracy of $0.001 \%$ is ...... $(h = 6.63 \times 10^{-34} \, Js)$

Given: The mass of an electron is $9.1 \times 10^{-31} \ kg$,Planck's constant is $6.62 \times 10^{-34} \ J \cdot s$. The uncertainty involved in the measurement of velocity within a distance of $0.1 \ \mathring{A}$ is:

If the position of the electron was measured with an accuracy of $\pm 0.002 \ nm$,the uncertainty in the momentum of it would be (in $kg \ ms^{-1}$) $(h=6.626 \times 10^{-34} \ J \ s)$.

In the polar coordinates of the Schrodinger equation,the angle between the radius vector and the $Z$-axis is known as ..........

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