The graph shows the variation of `l nR v//s (1)/(T^(2))`, where `R` is resistance and `T` is temperature. Then find `R` as function `T`.

The diagram shows the variatioin of 1//v (where v is velocity of the particle) with respect to time. At time t=3s using the details given in the graph, find the instantaneous acceleration (in m//s^(2) )

Resistance of a resistor at temperature t^@C is R_t =R_0 (1+alphat + betat^2) , where R_0 is the resistance at 0^@C . The temperature coefficient of resistance at temperature t^@C is

The correct graph which shows the variation of paramagnetic susceptibility S with temperature T is

Which of the following graph represents the variation of resistivity ( rho ) with temperature (T) for copper?

A rod of length l with thermally insulated lateral surface consists of material whose heat conductivity coefficient varies with temperature as k= a//T , where a is a constant. The ends of the rod are kept at temperatures T_1 and T_2 . Find the function T(x), where x is the distance from the end whose temperature is T_1 .

(a) Draw graph showing the variation of current versus voltage in an electroyte when an external resistance is also connceted. (b) (i) The graph between resistance (R ) and temperature (T) for Hg is shown in the figure (a). Explain the behaviour of Hg near 4k. (ii) In which region of the graph shown in the figure (b) is the resistance negative and why?

Graphs: s vs t, v vs t and a vs t

How does the time period (T) of a simple pendulum depend on its length (l)? Draw a graph showing the variation of T_2 with l. How will you use this graph to determine the value of g (acceleration due to gravity) ?

Electrical resistance of certain materials, known as superconductors, changes abruptly from a nonzero value of zero as their temperature is lowered below a critical temperature T_(C) (0) . An interesting property of super conductors is that their critical temperature becomes smaller than T_(C) (0) if they are placed in a magnetic field, i.e., the critical temperature T_(C) (B) is a function of the magnetic field strength B. The dependence of T_(C) (B) on B is shown in the figure. . In the graphs below, the resistance R of a superconductor is shown as a function of its temperature T for two different magnetic fields B_1 (solid line) and B_2 (dashed line). If B_2 is larget than B_1 which of the following graphs shows the correct variation of R with T in these fields?

The speed of a particle moving in a circle of radius r=2m varies with time t as v=t^(2) , where t is in second and v in m//s . Find the radial, tangential and net acceleration at t=2s .