A radioactive with half life `T=693.1` days. Emits `beta`-particles of average kinetic energy `E=8.4xx10^(-14)` joule. This radionuclide is used as source in a machine which generates electrical energy with efficiency `eta=12.6%`. Number of moles of the nuclide required to generate electrical energy at an initial rate is `P=441 KW`, is `nxx10^(n)` then find out value of `(n)/(m) (log_(e )2=0.6931)N_(A)=6.023xx10^(23)`

A radio nuclide with half-life T days emits beta -particles of average kinetic energy E J . The radionuclide is used as a source in a machine which generates electric energy with efficiency 25% . The number of moles of the nuclide required to generate electrical energy at an initial rate P is n=(yTP)/(EN ln(2)) where 'y' is

Polonium ( _84^210 Po ) emits _2^4He particles and is converted into lead ( _82^206Pb ). This reaction is used for producing electric power in a space mission. Po^210 has half-life of 138.6 days. Assuming an efficiency of 10% for the thermoelectric machine, how much ^210Po is required to produce 1.2xx10^7J of electric energy per day at the end of 693 days. Also find the initial activity of the material. Given : Masses of nuclei ^210Po=209.98264 amu, ^206Pb=205.97440 amu, _2^4He=4.00260 amu, 1 am u=931 MeV//c^2 and Avogadro's number = 6xx10^23//mol

When a beam of monochromatic light hits a metal surface , electrons just get ejected with zero kinetic energy . If the intensity of the beam is 79.2xx10^3 W//m^2 and the frequency of light is 2xx10^(15)Hz , then the number of the photons per metre cube in the radiation is n xx 10^(13) . Find the value of n. (Take h= 6.6xx10^(-34)Js )

The average kinetic energy of one molecule of an ideal gas at 27^@C and 1 atm pressure is [Avogadro number N_A=6.023xx10^(23) ]

An electromagnetic wave fo frequency 1xx10^(14) Hz is propagating along z - axis. The amplitude of the electric field is 4V//m . If epsilon_(0)=8.8xx10^(-12)C^(2)//N-m^(2) , then the average energy density of electric field will be

A radiation is emitted by 1000 W bulb and it generates an electric field and magnetic field at P, placed at a distance of 2 m. The efficiency of the bulb is 1.25%. The value of peak electric field at Pis "x"xx10^(-1)V//m . Value of x is_ (Rounded-off to the nearest integer) [Take epsi_0=8.85xx10^(-12)C^2N^(-1)m^(-2),c=3xx10^8ms^(-1)