The units for equation `lambda = (h)/(mv)` are

Calaculate the wavelength of the particle in the following tow cases: (i) The fastest serve in tennis is about 130 miles per hour, or 58ms^(-1) . Calculate the wavelength associated with a 6.0xx10^(-2) kg tennis bell travelling at this speed. (ii) Calculate the wavelength associated with an electorn moving at 58ms^(-1) . Strategy : The de Broglie relationship says that the wavelength lambda of an object with mass m moving at a velocity v can be calculated by the equation lambda = h//mv .

If alpha,beta be the roots of the equation lambda^(2)(x^(2)-x)+2 lambda x+3=0 and lambda_(1),lambda_(2) be the two values of lambda for which alpha and beta are connected by the relation (alpha)/(beta)+(beta)/(alpha)=(4)/(3), then find the equation whose roots are ((lambda_(1))^(2))/(lambda_(2)) and ((lambda_(2))^(2))/(lambda_(1))

The wavelength lambda associated with a moving electron depends on its mass m , its velocity v and Planck's constant h . Prove dimensionally that lambda prop (h)/(mv) .

The equation r=lambda hati represents

The sum of possible value of lambda for which the system of equations (lambda+1)x+8y=4 lambda and lambda x+(lambda+3)y=3 lambda-1 is inconsistent is

The system of equations lambda x+(lambda+1)y+(lambda-1)z=0,(lambda+1)x+lambda y+(lambda+z)z=0,(lambda-1)x+(lambda+2)y+lambda z= bas a non-trivial solutions for

If alpha, beta are the roots of the equation lambda(x^(2)-x)+x+5=0 and if lambda_(1) and lambda_(2) are two values of lambda obtained from (alpha)/(beta)+(beta)/(alpha)=(4)/(5) , then (lambda_(1))/(lambda_(2)^(2))+(lambda_(2))/(lambda_(1)^(2)) equals

The unit of equivalent conductivity (Lambda_(eq.)) are

The equation lambda^(2)x^(2)+(lambda^(2)-5 lambda+4)xy+(3lambda-2)y^(2)-8x+12y-4=0 will represent a circle, if lambda=

Write the logarithmic equation for E=(1)/(2)mv^(2)