The uncertainties in posiiton and velocity of a particle are `10^(-10)`m and `5.27xx10^(-24)m*s^(-1)` respectively. Calculate the mass of the particle.

The uncertainty in position and velocity of a particle are 1.0xx10^(-5) m and 4.28xx10^(-20)m*s^(-1) respectively. Calculate the mass of the particle.

The uncertainty in the determination of velocity of a dust particle (of mass 0.1 mg) is 4.5xx10^(-20)m*s^(-1) . Calculate the least uncertainty in its position.

A proton obliquely enters a uniform magnetic field of 0.5 T. It the component of its velocity along and perpendicular to the direction of the magnetic field are 1.5xx10^(5)m.s^(-1) and 2xx10^(5)m.s^(-1) , respectively, calculate the radius of the helical path followed by the proton ant its pitch. [m=1.67xx10^(-27)kg,e=1.6xx10^(-19)C]

The rate constants of a reaction at 35^(@)C and 65^(@)C " are " 6.65xx10^(-5)s^(-1) and 2.24xx10^(-3)s^(-1) respectively. Calculate the frequency factor of the reaction.

The- mass of a proton and an electron are 1.67 xx 10^(-24) g and 9.11 xx 10^(-28) respectively. Calculate the ratio of their wavelengths if the proton is, moving with half the velocity of the electron.

The escape velocity of a particle of mass m is

Calculate the product of uncertainties in the position and velocity of an electron of mass 9.1xx10^(-31)kg , according to Heisenberg's uncertainty principle.

The velocities of two particles A and B are 0.05 and 0.02 m*s^(-1) respectively. The mass of B is five times the mass of A. the ratio of their de Broglie wavelength is-

The kinetic energy of a subatomic particle is 3.60xx10^(-24) J. calculate the frequency of the corresponding particle wave.

The velocities of two particles moving towards east to 4m.s^-1 and 6m.s^-1 , respectively The velocities of three other particles moving towards west are 2m.s^-1,3m.s^-1 and 5 m.s^-1 respectively. The root mean square speed of these 5 particles is