The uncertainties in the potisition and velocity of particle are `3.14 xx 10^(-10)m` and`5.27 xx 10^(-24) m//s` respectively . Calculate mass of the particle.

The uncertainty in the position and velocity of a particle are 10^(-10)" m and "5.27 xx 10^(-24)" m s"^(-1) respectively. Calculate the mass of the particle (h = 6.625 xx 10^(-34)" Js").

The uncertainty in position and velocity of the particle are 0.1 nm and 5.27xx10^(-24) ms^(-1) respectively then find the approximate integral mass of the particle (in g ) . (h=6.625xx10^(-34) Js)

The uncertainties in position and the velocity of a particle are 10^(10) m and 10× 10^(−24).sec^(−1) respectively. The mass of the particle in kg is

The uncertainties in position and the velocity of a particle are 10^(-10) m and 10× 10^(−24).sec^(−1) respectively. The mass of the particle in kg is

The uncertainties in position and the velocity of a particle are 10^(-10) m and 1× 10^(−24).sec^(−1) respectively. The mass of the particle in kg is

The uncertainties in position and the velocity of a particle are 10^(-10) m and 10× 10^(−22).sec^(−1) respectively. The mass of the particle in kg is

The uncertainties in position and the velocity of a particle are 10^(10) m and 1× 10^(−34).sec^(−1) respectively. The mass of the particle in kg is

The uncertainty in position and velocity of the particle are 0.2mm and 10.54xx10^(-27)ms^(-1) respectively then the mass of the particle is : ( h=6.625xx10^(-34)Js)

The rate of a reaction starting with initial concentration of 2 xx 10^(-3) and 1 xx 10^(-3) M are equal to 2.40 xx 10^(-40) and 0.60 xx 10^(-4) M s^(-1) , respectively. Calculate the order or reaction w.r.t. reactant and also the rate constant.

In a certain experiments to measure the ratio of charge to mass of elementry particles, a surprising result was obtained in which two particle, a surprising result was obtained in which two particles moved in such a way that the distance between them always remained constant. It was also noticed that this two-particle system was isolated from all other particles and no force was acting on this system except the force between these two mases. After careful observation followed bu intensive calculation, it was deduced that velocity of these two particles was always opposite in direction and magnitude of velocity was 10^(3) ms^(-1) and 2 xx 10^(3) ms^(-1) for first and second particle, respectively, and mass of these particles were 2 xx 10^(-30) kg and 10^(-30)kg , respectively. Distance between them were 12Å(1Å = 10^(- 10)m). if the first particle is stopped for a moment and then released, the velocity of center of mass of the system just after the release will be