Which of these particles having the same kinetic energy has the largest de Broglie wavelength ?

An electron, a neutron and an alpha particle have same kinetic energy and their de-Broglie wavelength are lambda_e, lambda_n and lambda_(alpha) respectively. Which statement is correct about their de-Broglie wavelengths?

Statement-1 : Among the particles of same kinetic energy, lighter particle has greater de brogile wavelength. and Statement-2 : The de-Brogile wavelength of a particle depends only on the charge of the particle.

An electron, an alpha -particle and a proton have the same kinetic energy. Which of these particles has the largest de-Broglie wavelength?

A particle moving with kinetic energy E_(1) has de Broglie wavelength lambda_(1) . Another particle of same mass having kinetic energy E_(2) has de Broglie wavelength lambda_(2). lambda_(2)= 3 lambda_(2) . Then E_(2) - E_(1) is equal to

A particle moving with kinetic energy E_(1) has de Broglie wavelength lambda_(1) . Another particle of same mass having kinetic energy E_(2) has de Broglie wavelength lambda_(2). lambda_(2)= 3 lambda_(2) . Then E_(2) - E_(1) is equal to

An electron and a proton have same kinetic energy Ratio of their respective de-Broglie wavelength is about

A deuteron and an alpha - partical have same kinetic energy. Find the ratio of their de-Broglie wavelengths.

If particles are moving with same velocity , then maximum de - Broglie wavelength will be for

An electron, a doubly ionized helium ion (He^(+ +)) and a proton are having the same kinetic energy . The relation between their respectively de-Broglie wavelengths lambda_e , lambda_(He^(+)) + and lambda_p is :

A proton and an electron have same kinetic energy. Which one has greater de-Broglie wavelength and why ?