The maximum electron density in the ionospherein the mornong is `10^(10)m^(-3)`. At noon time it increases to `2xx10^(10)m^(-3)`. Find the ratio of critical frequency at noon and the critical frequency in the morning.

The electron dencity of E, F_(1),F_(2) layers of ionosphere is 2xx10^(11), 5xx10^(11) and 8xx10^(11) m^(-3) respectively. Wht is the ratio of critical frequency for reflection of radiowaves?

The minimum energy required for the emission of photoelectron from the surface fo a metal is 4. 94 xx 10 ^(19) J . Calcualte the critical reequency and the corresponding wavelength of the critical frequency and the corresponding wavelngth of the photon requred to ejerct the electron. ( h = 6. 6 xx 10^(-234) J esc^(-1)) .

If critical frequency is 40 MHz then calculate maximum density of electron-

If critical frequency is 40 MHz then calculate maximum density of electron-

A semiconductor has equal electron and hole concentration of 2xx10^(8)m^(-3) . On doping with a certain impurity, the electron concentration increases to 4xx10^(10)m^(-3), then the new hole concentration of the semiconductor is

If electron density of the layer of inosphere is 10 xx 10^(11) and k is a constant , then critical frequency for reflection of radiowaves is

The density of an electron-hole pair in a pure germanium is 3xx 10^(16) m^(-3) at room temperature. On doping with aluminium, the hole density increases to 4.5 xx 10^(22) m^(-3) . Now the electron density ( in m^(-3)) in doped germanium will be