A pot of the kinetic energy `(1//2mv^(2))` of ejected electrons as a functionof the frequency (v) of incident radiation for four alkali metals `(M_(1),M_(2),M_(3),M_(4))` is shown below.
The alkali metals `M_(1),M_(2),M_(3)andM_(4)` are, respectively-

Figure show the variation of the stopping potential (V_(0)) with the frequency (v) of the incident radiations for two different photosensitive matererial M_(1) and M_(2) What are the values of work functions for M_(1) and M_(2) respectively

Calculate M_(1),M_(2),M_(3) "and" M_(4) measures of money suppley using the following data:

If (m_(-)i,1/m_(-)i),i=1,2,3,4 are concyclic points then the value of m_(1)m_(2)m_(3)m_(4) is

The ratio of the kinetic energies of two particles in UCM is 4:1 If their momenta are kept constant then the ratio of their masses m_(1):m_(2) will be

The slope of graph as shown in figure at points 1,2 and 3 is m_(1), m_(2) and m_(3) respectively then

An alloy consists of n metals of mases m_(1),m_(2), m_(3) ……. m_(m) and specific heat capacitors s_(1), s_(2), s_(n) . What is the specific heat capacity of the alloy?

In the shown diagram m_(1)=m_(2)=4kg and m_(3)=2 kg . Coefficient of friction between m_(1) and m_(2) is 0.5. The mass m_(1) is given a velocity v and it just stops at the other end of the mass m_(1) in 1 sec. Let a_(1) and a_(2) and a_(3) be the acceleration m_(1),m_(2)and m_(3) respectively, then :

From the above figure the values of stopping potentials for M_(1) and M_(2) for a frequency v_(3)( gt v_(02)) of the incident radiatioins are V_(1) and V_(2) respectively. Then the slope of the line is equal to

If (m_(i),(1)/(m_(i))),i=1,2,3,4 are concyclic points,then the value of m_(1)m_(2)m_(3)m_(4) is