En electron, practically at rest, is initially accelerated through a de Broglie wavelength = 3, A. It hen get retarded through 19 volts and then has a wavelength 2, A. Afu retardation through 32 volts changes the wavelength to A What is by when

An electron practically at rest, is initially accelerated through a potential difference of 100 volts. It then has a de Broglie wavlength =lambda_(1)Å . It then get retorted through 19 volts and then has a wavelength lambda_(2)Å . A further retardation through 32 volts changes the wavelength to lambda_(3) . What is the value of (lambda_(3)-lambda_(2))/(lambda_(1)) ?

An electron practically at rest, is initially accelerated through a potential difference of 100 volts. It then has a de Broglie wavlength =lambda_(1)Å . It then get retorted through 19 volts and then has a wavelength lambda_(2)Å . A further retardation through 32 volts changes the wavelength to lambda_(3) . What is the value of (lambda_(3)-lambda_(2))/(lambda_(1)) ?

What is Broglie wavelength of an electron accelerated through 25000 volt ?

For a proton accelerated through V volts , de Broglie wavelength is given as lambda =

For a proton accelerated through V volts , de Broglie wavelength is given as lambda =

Calculate the de Broglie wavelength of an electron accelerated through 20,000 V.

What is the ratio of the de Broglie wavelength for electrons accelerated through 50 volts and 200 volts?