Question:
A charged particle moving in a uniform magnetic field and losses $4\%$ of its kinetic energy. The radius of curvature of its path changes by
A charged particle moving in a uniform magnetic field and losses $4\%$ of its kinetic energy. The radius of curvature of its path changes by
Updated On: Jun 24, 2024
- 2%
- 4%
- 10%
- 12%
Hide Solution
Verified By Collegedunia
The Correct Option is A
Solution and Explanation
As we know $F = qvB =\frac{m v^{2}}{r}$
$\therefore r=\frac{m v}{B q}$
And $KE = k =\frac{1}{2} m v^{2}$
$\therefore m v=\sqrt{2 k m}$
$\therefore r=\frac{m v}{q B}==\sqrt{\frac{2 k m}{q B}}$
$\Rightarrow r \propto \sqrt{k}$
or $r=c^{1 \backslash 2}$ (cis a constant)
$\frac{d r}{d r}=c \frac{d k^{12}}{d r}$
or $\frac{c \Delta k}{\Delta r}=2 \sqrt{k}$
or $\frac{\Delta r}{r}=\frac{c \Delta k}{2 \sqrt{k c} \sqrt{k}}=\frac{\Delta k}{2 k}$
There fore percentage changes in radius of path,
$\frac{\Delta r}{r}$ $\times 100=\frac{\Delta k}{2 k} \times 100=2 \%$
$\therefore r=\frac{m v}{B q}$
And $KE = k =\frac{1}{2} m v^{2}$
$\therefore m v=\sqrt{2 k m}$
$\therefore r=\frac{m v}{q B}==\sqrt{\frac{2 k m}{q B}}$
$\Rightarrow r \propto \sqrt{k}$
or $r=c^{1 \backslash 2}$ (cis a constant)
$\frac{d r}{d r}=c \frac{d k^{12}}{d r}$
or $\frac{c \Delta k}{\Delta r}=2 \sqrt{k}$
or $\frac{\Delta r}{r}=\frac{c \Delta k}{2 \sqrt{k c} \sqrt{k}}=\frac{\Delta k}{2 k}$
There fore percentage changes in radius of path,
$\frac{\Delta r}{r}$ $\times 100=\frac{\Delta k}{2 k} \times 100=2 \%$
Was this answer helpful?
0
0
Top Questions on Magnetic Field
- Given below are two statements: one is labelled as Assertion A and the other is labelled as Reason R.
Assertion A : The potential (V) at any axial point, at 2 m distance(r) from the centre of the dipole of dipole moment vector \(\vec{P}\) of magnitude, 4 × 10-6 C m, is ± 9 × 103 V.
(Take \(\frac{1}{4\pi\epsilon_0}=9\times10^9\) SI units)
Reason R : \(V=±\frac{2P}{4\pi \epsilon_0r^2}\), where r is the distance of any axial point, situated at 2 m from the centre of the dipole.
In the light of the above statements, choose the correct answer from the options given below :- NEET (UG) - 2024
- Physics
- Magnetic Field
- In a uniform magnetic field of \(0.049 T\), a magnetic needle performs \(20\) complete oscillations in \(5\) seconds as shown. The moment of inertia of the needle is \(9.8 \times 10 kg m^2\). If the magnitude of magnetic moment of the needle is \(x \times 10^{-5} Am^2\); then the value of '\(x\)' is
- NEET (UG) - 2024
- Physics
- Magnetic Field
- A tightly wound \(100\) turns coil of radius \(10 cm\) carries a current of \( 7 A\). The magnitude of the magnetic field at the centre of the coil is (Take permeability of free space as \(4\pi×10^{-7}\) SI units):
- NEET (UG) - 2024
- Physics
- Magnetic Field
- An iron bar of length L has magnetic moment M. It is bent at the middle of its length such that the two arms make an angle 60° with each other. The magnetic moment of this new magnet is :
- NEET (UG) - 2024
- Physics
- Magnetic Field
- A sheet is placed on a horizontal surface in front of a strong magnetic pole. A force is needed to :
A. hold the sheet there if it is magnetic.
B. hold the sheet there if it is non-magnetic.
C. move the sheet away from the pole with uniform velocity if it is conducting.
D. move the sheet away from the pole with uniform velocity if it is both, non-conducting and non-polar.
Choose the correct statement(s) from the options given below :- NEET (UG) - 2024
- Physics
- Magnetic Field
View More Questions
Questions Asked in BITSAT exam
- Minimum value of 5cos(2x) + 5sin(2x)
- BITSAT - 2023
- Trigonometric Functions
- Two capacitors, of capacitance C, are connected in series. If one of them is filled with a dielectric substance K, what is the effective capacitance?
- BITSAT - 2023
- electrostatic potential and capacitance
- What is the dimension of the Gravitational constant?
- BITSAT - 2023
- Gravitation
NaOH is deliquescent
- BITSAT - 2023
- States of matter
- The freezing point of the 0.05 molal solution of non - electrolyte in water is? (kf = 1.86)
- BITSAT - 2023
- Solutions
View More Questions
Concepts Used:
Magnetic Field
The magnetic field is a field created by moving electric charges. It is a force field that exerts a force on materials such as iron when they are placed in its vicinity. Magnetic fields do not require a medium to propagate; they can even propagate in a vacuum. Magnetic field also referred to as a vector field, describes the magnetic influence on moving electric charges, magnetic materials, and electric currents.
A magnetic field can be presented in two ways.
- Magnetic Field Vector: The magnetic field is described mathematically as a vector field. This vector field can be plotted directly as a set of many vectors drawn on a grid. Each vector points in the direction that a compass would point and has length dependent on the strength of the magnetic force.
- Magnetic Field Lines: An alternative way to represent the information contained within a vector field is with the use of field lines. Here we dispense with the grid pattern and connect the vectors with smooth lines.
Properties of Magnetic Field Lines
- Magnetic field lines never cross each other
- The density of the field lines indicates the strength of the field
- Magnetic field lines always make closed-loops
- Magnetic field lines always emerge or start from the north pole and terminate at the south pole.