Figure shows the elipticla path of a planet about the sun. The two shaded parts have equal area. If `t_1 and t_2` be the tim taken by the planet to go from a to b and from c to d respectively

The figure shows elliptical orbit of a planet 'M' about the Sun 'S', the shaded area SCD is twice the shaded area SAB. If t_(1) is the time for the planet to move from C and D and t_(2) is the time to move from A to B then.

A line meets the coordinate axes at A and B . A circle is circumscribed about the triangle O A Bdot If d_1a n dd_2 are distances of the tangents to the circle at the origin O from the points Aa n dB , respectively, then the diameter of the circle is (2d_1+d_2)/2 (b) (d_1+2d_2)/2 d_1+d_2 (d) (d_1d_2)/(d_1+d_2)

A Particle excites simple harmonic motion between x=-A&x=+A , the time taken for it to go from O to A/2 is T_(1) & to go from A/2 to A is T_(2) then

The absoulte temperature of air in a region linearly increases from T_1 to T_2 in a space of width d. Find the time taken by a sound wave to go through the region in terms of T_1, T_2 d and the speed upsilon of sound at 273 K. Evalute this time for T_1 = 280 K, T_2 = 310 K, d 33m and upsilon = 330 m s^(-1)

Transverse common tangents are drawn from O to the two circles C_1,C_2 with 4, 2 respectively. Then the ratio of the areas of triangles formed by the tangents drawn from O to the circles C_1 and C_2 and chord of contacts of O w.r.t the circles C_1 and C_2 respectively is

Two wires A and B, having identical geometricla construction, are stretched from their natural length by smal but equal amount. The young modulus of the wire are Y_A and Y_B whereas the densities are rho_A and rho_B . It is given that Y_AgtY_B and rho_Agtrho_B A transverse signal started at one end takes a time t_1 to reach the other ennd for A and t_2 for B.

The figure shows the path of ray of light propagating from medium 1 to medium 2. The refractive index of medium 1 with respect to medium 2 is …………………………. .

To travel from a place A to place B, there are two different bus routes B_(1) , B_(2) , two different train routes T_(1) , T_(2) and one air route A_(1) . From place B to place C there is one bus route say B_(1) two different train routes say T_(1) , T_(2) and one air route A_(1) . Find the number of routes of commuting from place A to place C via place B without using similar mode of transportation.

Fig shows a cylindrical tube of volume V with adiabatic walls containing an ideal gas. The internal energy of this ideal gas is given by 1.5nRT. The tube is divided into two equal parts by a fixed diathermic wall. Initially, the pressure and the temperature are p_(1), T_(1) on the left and p_(2), T_(2) on the right. the system is left for sufficient time so that the temperature becomes equal on the two sides. (a) how much work has been done by the gas on the left part ? (b) find the final pressures on the two sides. (c ) find the final equilibrium temperature. (d) how much heat has flown from the gas on the right to the gas on the left ?

Two coil A and B have inductances 1.0 H and 2.0 H respectively. The resistance of each coil is 10 Omega . Each coil is connected to an ideal battery of emf 2.0 V at t = 0 Let i_A and i_B be the current in the two circuit at time t. Find the raito i_A/ I_B at (a) t=100ms, (b) t= 200 ms and (c ) t = 1 s.