A condenser of capacitor `0.144 pF` is used in a transmitte to transmit at wavelength `lambda`. If inductace of `1//pi^(2) mH` is used for resonance, what is the value of `lambda` (in m) ?

A condenser of capacitance of 2.4muF , is used in a transmitter to transmit a lamda wavelength. If the inductor of 10^(-8)H is used for resonant circuit, then value of lamda is

In YDSE pattern with light of wavelength lambda_1 = 500nm , 15 fringes are obtained on a certain segment of screen. If number of fringes for light of wavelength lambda_2 on same segment of screen is 10, then the value of lambda_2 (in nm) is-

If the roots of the equation 4B^(2)+ lambda B-2 =0 are of the from k/(k+1)and (k+1)/(k+2), then what is the value of lambda ?

If [{:(1,-3,2),(2,-8,5),(4,2,lambda):}] is not an invertible matrix, then what is the value of lambda ?

A transmitter transmits at a wavelength of 300 m. A condenser of capacitance 2.4 (mu)F is being used. The value of the inductance for the resonant circuit is approximatly

If the points A(-1, 3, lambda), B(-2, 0, 1) and C(-4, mu, -3) are collinear, then the values of lambda and mu are

The stopping potential for a certain photocell is 1.2 V when light of wavelength lambda_(1)=400 nm is used. It is 0.6 V, when light of wavelength lambda_(2)=500 nm is used. What would be the stopping potential, when both lambda_(1) and lambda_(2) are incident simultaneously ?

A coil of inductance 0.4 mH is connected to a capacitor of capacitance 400 pF. To what wavelength is this circuit truned ?