Select the correct statement about electric charge

In a cyclotron, a charged particle

→

Neglecting variation of mass with velocity, the wavelength associated with an electron having a kinetic energy $E$ is proportional to

→

According to the Rutherford’s atomic model, the electrons inside the atom are

→

Two positive point charges of unequal magnitude are placed at a certain distance apart. A small positive test charge is placed at null point, then

→

Two metal pieces having a potential difference of 800 V are 0.02 m apart horizontally. A particle of mass $1.96 \times 10^{-15} \mathrm{~kg}$ is suspended in equilibrium between the plates. If e is the elementary charge, then charge on the particle is

→

A monochromatic beam of light has a frequency $v = \frac{3}{{2\pi }} \times {10^{12}}\,Hz$ and is propagating along the direction $\frac{{\hat i + \hat j}}{{\sqrt 2 }}$. It is polarized along the $\hat k$ direction. The acceptable form for the magnetic field is

→

When a magnet is pushed in and out of a circular coil C connected to a very sensitive galvanometer G as shown in the adjoining diagram with a frequency v, then

→

Light enters from air into a given medium at an angle of $45^{\circ}$ with interface of the air-medium surface. After refraction, the light ray is deviated through an angle of $15^{\circ}$ from its original direction. The refractive index of the medium is.

→

When light is refracted into a medium:

→

An ellipsoidal cavity is carved within a perfect conductor. A positive charge $q$ is placed at the centre of the cavity. The points $A$ and $B$ are on the cavity surface as shown in the figure. Then

→

Answer

Need a full question paper?

Explore more

Similar questions

1. Electric charges and fields — Physics STD 12 Science — Question

Answer

Need a full question paper?

Explore more

Similar questions