Dual behaviour of matter proposed by de Broglie led to the discovery of electron microscope often used for the highly magnefied images of biological molecules and other type of material. If the velocity of the electron in this microcope is `1.6xx10^(6) m s^(-1)`. Calculate de Broglie wavelength associated with this electron.

Dual behaviour of matter proposed by de Broglie led to the discovery of electron microscope often used for the highly magnified images of biological molecules and other type of material. If the velocity of the electron in this microscope is 1.6xx10^(6) m s^(-1) . Calculate de Broglie wavelength associated with this electron.

Dual behaviour of matter proposed by de Broglie led to the discovery of electron microscope oftenused for the highly magnified images of biological molecules and othér type of material. If the velocity of the electron in this microscope is '1.6 xx 10^6 ms^(-1)', calculate de Broglie wavelength associated with this electron.

Dual behaviour of matter proposed by de Broglie led to the discovery of electron microscope often used for the highly magnified images of biological moleculas and other type of material .If the velocity of the electron in this microsocope is 1.6 xx 10^(6) ms^(-1) Calculate de - Broglie wavelength associated with this electron (m_(e) = 9.1 xx 10^(31) kg h= 6.626 xx 10^(34) Js )

Dual behaviour of matter proposed by de-Broglie led to the discovery of electron microscope often used for the highly magnified images of biological molecules and other type of material. If the velocity of electron in this microscope is 1.6 xx 10^6 ms^(-1) . calculate de-Broglie wavelength associated with this electron.

Dual behaviour of matter proposed by de Broglie the discovery of electron microscope often used for the highly magnified images of biological molecules and other types of material. If the velocity of the electron in this microscope is 1.6xx10^(6)m*s^(-1) , calculate de Broglie wavelength associated with this electron.

Dual behaviour of matter proposed by de Brolie led to the discovery of electron microscope often used for the highly magnified images of biological molecules and other type of material. If the velocity of the electron’ in this microscope is 1.6 xx 10^6 ms^-1 , calculate de Broglie wavelength associated with the neutron.

If the velocity of the electron in Bohr's first orbit is 2.19xx10^(6) m s^(-1) , calculate the de Broglie wavelength associated with it.