A particle moving with a velocity `(1^(th))/10` f that of light will cross a nucleus in about

If the material particle is moving with velocity v and the velocity of light is c, then mass of particle is taken as ( m_0 is rest mass)

A particle moves with a velocity v=(5hati-3hatj + 6hatk) ms^(-1) under the influence of a constant force F =(10hati + 10hatj + 20hath) N , the instantaneous power applied to the particle is.

A particle moves with a velocity v=(5hati-3hatj + 6hatk) ms^(-1) under the influence of a constant force F =(10hati + 10hatj + 20hath) N , the instantaneous power applied to the particle is.

The de - Broglie wavelength of a particle moving with a velocity 2.25 xx 10^(8) m//s is equal to the wavelength of photon. The ratio of kinetic energy of the particle to the energy of the photon is (velocity of light is 3 xx 10^(8) m//s

A particle moves with uniform velocity. Which of the following statements about the motion of the particle is true?

Assertion : If a particle moves with a constant velocity, then angular momentum of this particle about any point remains constant. Reason : Angular momentum has the units of Plank's constant.

In Figure. , a plane mirror is moving with a uniform speed of 5ms^(-1) along negative x-direction and observer O is moving with a velocity of 10ms^(-1) . What is the velocity of image of a particle P, moving with a velocity as shown in the figure, as observed by observer O? Also find its direction.

A particle moves with initial velocity v_(0) and retardation alphav , where v is velocity at any instant t. Then the particle

A charged particle carrying charge q=10 muC moves with velocity v_1=10^6 ms^-1 at angle 45^@ with x-axis in the xy plane and experience a force F_1=5sqrt2 mN along the negative z-axis. When the same particle moves with velocity v_2=10^6 ms^-1 along the z-axis, it experiences a force F_2 in y-direction. Find the magnitude of the force F_2 .

A particle is moving east wards with a velocity of 15 ms^(-1) . In a time of 10 s, the velocity changes to 15 ms^(-1) northwards. Average acceleration during this time is (in ms^(-2))