In an electron microscope, the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of `7.5 xx 10^(-12)` m, the minimum electron energy required is close to :

Find the de Broglie wavelength of electrons moving with a speed of 7 xx 10^(6) ms^(-1)

Calculate the wavelength of an electron moving with a velocity of 2. 05 xx 10^7 ms^(-1) .

Calculate the wavelength of an electron moving with a velocity of 2.05 xx 10^7 ms^(-1) .

The wavelength of an electron moving with velocity of 10^(7)ms^(-1) is

We wish to see inside an atom. Assuming the atom to have a diameter of 100 pm, this means that one must be able to resolve a width of say 10 pm. If an electron microscope is used, the minimum electron energy required is about

We wish to see inside an atom. Assuming the atom to have a diameter of 100 pm, this means that one must be able to resolve a width of say 10 pm. If an electron microscope is used, the minimum electron energy required is about

What will be de Broglie's wavelength of an electron moving with a velocity of 1.2 xx 10^(5) ms^(-1) ?

The circumference of second orbit of hydrogen atom, if the wavelength of electron is 5 xx 10^(-9)m will be

Assertion : Electron microscope has more resolving power than optical microscope. Reason : We can control the energy of electron.

Calculate de - Broglie wavelength of an electron having kinetic energy 2.8xx10^(-23)J