154527 The magnetic flux across a loop or resistance
$15 \Omega$ is given by $\phi=25 t^{2}-6 t+10 \mathrm{~Wb}$. How
much current is induced in the loop after $0.5 \mathrm{~s}$ ?

154528 A magnetic material is placed in a non-uniform magnetic field which is oriented along $z$-axis having force gradient $=\frac{\partial \mathbf{H}}{\partial \mathbf{z}}$, then force experienced by the material will be equal to

154530 When a $10 \mu \mathrm{C}$ charge is enclosed by a closed surface, the flux passing through the surface is $\phi$. Now another $10 \mu \mathrm{C}$ charge is placed inside the closed surface, then the flux passing through the surface is

154526 Assertion (A) Electromagnetic force is enormously strong as compared to gravitational force. Yet, gravity dominates in the large-scale phenomena (e.g. formation of galaxies).
Reason (R) Existence of positive and negative charges make matter mostly electrically neutral.
Which of the following is true?

154527 The magnetic flux across a loop or resistance
$15 \Omega$ is given by $\phi=25 t^{2}-6 t+10 \mathrm{~Wb}$. How
much current is induced in the loop after $0.5 \mathrm{~s}$ ?

154528 A magnetic material is placed in a non-uniform magnetic field which is oriented along $z$-axis having force gradient $=\frac{\partial \mathbf{H}}{\partial \mathbf{z}}$, then force experienced by the material will be equal to

154530 When a $10 \mu \mathrm{C}$ charge is enclosed by a closed surface, the flux passing through the surface is $\phi$. Now another $10 \mu \mathrm{C}$ charge is placed inside the closed surface, then the flux passing through the surface is

154526 Assertion (A) Electromagnetic force is enormously strong as compared to gravitational force. Yet, gravity dominates in the large-scale phenomena (e.g. formation of galaxies).
Reason (R) Existence of positive and negative charges make matter mostly electrically neutral.
Which of the following is true?

154527 The magnetic flux across a loop or resistance
$15 \Omega$ is given by $\phi=25 t^{2}-6 t+10 \mathrm{~Wb}$. How
much current is induced in the loop after $0.5 \mathrm{~s}$ ?

154528 A magnetic material is placed in a non-uniform magnetic field which is oriented along $z$-axis having force gradient $=\frac{\partial \mathbf{H}}{\partial \mathbf{z}}$, then force experienced by the material will be equal to

154530 When a $10 \mu \mathrm{C}$ charge is enclosed by a closed surface, the flux passing through the surface is $\phi$. Now another $10 \mu \mathrm{C}$ charge is placed inside the closed surface, then the flux passing through the surface is

154526 Assertion (A) Electromagnetic force is enormously strong as compared to gravitational force. Yet, gravity dominates in the large-scale phenomena (e.g. formation of galaxies).
Reason (R) Existence of positive and negative charges make matter mostly electrically neutral.
Which of the following is true?

154527 The magnetic flux across a loop or resistance
$15 \Omega$ is given by $\phi=25 t^{2}-6 t+10 \mathrm{~Wb}$. How
much current is induced in the loop after $0.5 \mathrm{~s}$ ?

154528 A magnetic material is placed in a non-uniform magnetic field which is oriented along $z$-axis having force gradient $=\frac{\partial \mathbf{H}}{\partial \mathbf{z}}$, then force experienced by the material will be equal to

154530 When a $10 \mu \mathrm{C}$ charge is enclosed by a closed surface, the flux passing through the surface is $\phi$. Now another $10 \mu \mathrm{C}$ charge is placed inside the closed surface, then the flux passing through the surface is

154526 Assertion (A) Electromagnetic force is enormously strong as compared to gravitational force. Yet, gravity dominates in the large-scale phenomena (e.g. formation of galaxies).
Reason (R) Existence of positive and negative charges make matter mostly electrically neutral.
Which of the following is true?