Two particle are moving perpendicular to...

Two particle are moving perpendicular to each with de-Broglie wave length `lambda_(1)` and `lambda_(2)`. If they collide and stick then the de-Broglie wave length of system after collision is : (A) `lambda = (lambda_(1) lambda_(2))/(sqrt(lambda_(1)^(2) + lambda_(2)^(2)))` (B) `lambda = (lambda_(1))/(sqrt(lambda_(1)^(2) + lambda_(2)^(2)))` (C) `lambda = (sqrt(lambda_(1)^(2) + lambda_(2)^(2)))/(lambda_(2))` (D) `lambda = (lambda_(1) lambda_(2))/(sqrt(lambda_(1) + lambda_(2)))`

Similar Questions

Explore conceptually related problems

If tan 82(1)/(2^(@))=sqrt(lambda_(1))+sqrt(lambda_(2))+sqrt(lambda_(3))+2 then lambda_(1)+lambda_(2)+lambda_(3) is equal to

If the matrix A = [[lambda_(1)^(2), lambda_(1)lambda_(2), lambda_(1) lambda_(3)],[lambda_(2)lambda_(1),lambda_(2)^(2),lambda_(2)lambda_(3)],[lambda_(3)lambda_(1),lambda_(3)lambda_(2),lambda_(3)^(2)]] is idempotent, the value of lambda_(1)^(2) + lambda_(2)^(2) + lambda _(3)^(2) is

The wavelength of electron waves in two orbits (lambda_(1) : lambda_(2))

Two particles A and B of de-broglie wavelength lambda_(1) and lambda_(2) combine to from a particle C. The process conserves momentum. Find the de-Broglie wavelength of the particle C. (The motion is one dimensional).

If lambda_(1) and lambda_(2) denote the wavelength of de-broglie waves for electron in Bohr's first and second orbits in the hydrogen atom, then lambda_(1)//lambda_(2) will be

Two particles move at right angle to each other.Their de Broglie wavelengths are lambda_(1) and lambda_(2) respectively.The particles suffer perfectly inelastic collision.The de Broglie wavelength lambda of the final particle is given by :

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

Two particles having de-Broglie wavelengths lambda_(1) and lambda_(2) , while moving along mutually perpendicular directions, undergo perfectly inelastic collision. The de-Broglie wavelength lambda , of the final particle is

p(lambda)^4+q(lambda)^3+r(lambda)^2+s(lambda)+t = |((lambda^2 + 3lambda) , lambda -1 , lambda+3) , (lambda +1 , -2lambda , lambda-4 ) ,(lambda-3 , lambda+4 , 3lambda)| find t=?

Similar Questions

Recommended Questions