An electron and a proton, each has a wavelenght of 1.00 nm. Find
their momenta

An electron and a photon each have a wavelength of 1.00 nm. Find a. their momenta, b. the energy of the photon, and c. the kinetic energy of electron.

An electron and a proton, each has a wavelenght of 1.00 nm. Find the kinetic energy of electron.

An electron and a proton, each has a wavelenght of 1.00 nm. Find the energy of the photon

An electron and a proton, each have de Broglie wavelength of 1.00 nm. Find the ratio of their momenta.

An electron and a proton, each have de Broglie wavelength of 1.00 nm. Compare the kinetic energy of the proton with that of the electron.

An electron and a proton are moving in the same direction and possess same kinetic energies. Find the ratio of de Broglie wavelength associated with these particles.

An electron and proton are possessing the same amount of kinetic energy. Which of the two has greater wavelength?

In Young's double silt experiment, the two slits are 0.15 mm apart. The light source has a wavelenght of 450 nm. The screen is 2 m away from the slits. (i) Find the distance of the second bright frings and also third dark frings from the central maximum. (ii) Find the fringe width. (iii) How will the frings pattern change if the screen is moved away from the silis? (iv) what will happen to the fringe width if the whole setup is immersed in water of refractive index 4/3.