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The energy density u is plotted against the distance r from the centre of a spherical charge distribution on a log-log scale. Find the magnitude of slope of obtained straight line.
An object is gradually moving away from the focal point of a converging lens along the axis of the lens. The graphical representation of the magnitude of linear magnification (m) versus distance of the object from the lens (x) is correctly given by : (Graphs are drawn schematically and are not to scale)
In a uniformly charged sphere of total charge Q and radius R, the electric field E is plotted as function of distance from the centre, The graph which would correspond to the above will be:
A particle is projected at t=0 from a point on the ground with certain velocity at an angle with the horizontal. The power of gravitation force is plotted against time. Which of the following is the best representation?
If the law of gravitation be such that the force of attraction between two particles vary inversely as the 5//2^(th) powr of their separation then the graph of orbital velocity v_(0) plotted against the distance r of a satellite from the earth's centre on a log-log scale is shown alongside the slope oline will be
A wave function for an atomic orbital is given as Psi_(2,1,0) Recogine the orbital
When the atomic electron is at infinite distance from the nucleus, its energy is
In an experiment on photoelectric effect the frequency f of the incident light is plotted against the stopping potential V_(0) . The work function of the photoelectric surface is given by ( e is the electronic charge)
The variation of electric field between two charge q_1 and q_2 along the line joining the charges is plotted against distance from q_1 (taking rightward direction of electric field as positive) as shown in the figure. Then the correct statement is
Rate of reaction (r ) is plotted against temperature (T) for an enzyme catalysed reaction. Which of the following is correct representation ?
