In `H-` atom spectrum V is the wave number
`V_(1)=V_(min)+V_(max)` for layman series
`V_(2)=V_(min)+V_(max)` for balmer series then `V_(1):V_(2)`

In the circuit shown, the readings of voltmeters V_(1), V_(2) and V_(3) are given by

What is the ratio of Deltav==v_("max")-v_("min") for spectral lines corresponding to lyman & Balmer series for hydrogen

Cut off potential for a metal in photoclectric effect for light of wavelength lambda_(1), lambda_(2) and lambda_(3) is found to be V_(1),V_(2) and V_(3) volts , If V_(1),V_(2) and V_(3 are in Arithmetic progression then lambda_(1),lambda_(2) and lambda_(3) will be in

If the readings V_(1) and V_(3) are 10. volt each, then reading of V_(2) is:

If v_1 is the frequency of the series limit of lyman seies, v_2 is the freqency of the first line of lyman series and v_3 is the fequecny of the series limit of the balmer series, then

For the hydrogen spectrum last line of the lyman series has frequency v1 last line of lyman series of He^(+) ions has frequency V_(2) and 1^(st) line of Lyman series of He^(+) ions has frequency v_(3) then

Two sources of sound are moving in opposite directions with velocities V_(1) and V_(2)(V_(1) gt V_(2)) . Both are moving away from a stationary observer. The frequency of both the source is 1700Hz. What is the value of (V_(1)-V_(2)) so that the beat frequency observed by the observer is 10Hz. V_("sound")=340m//s and assume that V_(1) and V_(2) both are very much less than V_("sound") .

in a series LCR circuit, what is the phase difference between V_(L) and V_(C) where V_(L) is the potential difference across the inductor and V_(C) is the potential difference across the capacitor?

Two solution of H_(2)SO_(4) of molarities x and y are mixed in the ratio of V_(1) mL : V_(2) mL to form a solution of molarity M_(1) . If they are mixed in the ratio of V_(2) mL : V_(1) mL , they form a solution of molarity M_(2) . Given V_(1)//V_(2) = (x)/(y) gt 1 and (M_(1))/(M_(2)) = (5)/(4) , then x : y is

Let v_(1) be the frequency of series limit of Lyman series, v_(2) the frequency of the first line of Lyman series and v_(3) the frequency of series limit of Balmer series. Then which of the following is correct ?