Two identical rods are connected between two containers on of tehm is at `100^@C` and another is at `0^@C.` If rods are connected in parralel them the rate of melting of ice is `q_1 gm//sec.`
If they are connected in series then the rate is `q_2.` The ratio `q_2//q_1` is

Two identical rods are connected between two containers. One of them is at 100^(@)C containing water and another is at 0^(@)C containing ice. If rods are connected in parallel then the rate of melting of ice is q_(1)g//s . If they are connected in series then teh rate is q_(2)g//s . The ratio q_(2)//q_(1) is

Two identical rods are connected between two containers. One of them is at 100^(@)C containing water and another is at 0^(@)C containing ice. If rods are connected in parallel then the rate of melting of ice is q_(1)g//s . If they are connected in series then teh rate is q_(2)g//s . The ratio q_(2)//q_(1) is

Two identical rods are connected in parallel. One end of the rods is maintained at 100^(@)C and other end is kept in 0^(@)C ice . The rate at which the ice melts is Q_(1) gm/sec . Now the rods are connected in series . The ends are again maintained at 100^(@) C and kept in 0^(@)C ice . Now the rate at which ice melts is Q_(2) gm/sec . Then Q_(2) //Q_(1) is

Two identical conducting rods are first connected independently to two vessels, one containing water at 100^@C and the other containing ice at 0^@C . In the second case, the rods are joined end to end and connected to the same vessels. Let q_1 and q_2 gram per second be the rate of melting of ice in the two cases respectively. The ratio q_1/q_2 is (a) 1/2 (b) 2/1 (c) 4/1 (d) 1/4

Two identical conducting rods are first connected independently to two vessels, one containing water at 100^@C and the other containing ice at 0^@C . In the second case, the rods are joined end to end and connected to the same vessels. Let q_1 and q_2 gram per second be the rate of melting of ice in the two cases respectively. The ratio q_1/q_2 is (a) 1/2 (b) 2/1 (c) 4/1 (d) 1/4

Two identical conducting rods are first connected independently to two vessels, one containing water at 100^@C and the other containing ice at 0^@C . In the second case, the rods are joined end to end and connected to the same vessels. Let q_1 and q_2 gram per second be the rate of melting of ice in the two cases respectively. The ratio q_1/q_2 is (a) 1/2 (b) 2/1 (c) 4/1 (d) 1/4

Two identical conducting rods are first connected independently to two vessels, one containing water at 100^@C and the other containing ice at 0^@C . In the second case, the rods are joined end to end and connected to the same vessels. Let q_1 and q_2 gram per second be the rate of melting of ice in the two cases respectively. The ratio q_1/q_2 is (a) 1/2 (b) 2/1 (c) 4/1 (d) 1/4

Choose the correct option: Two identical conducting rods are first connected independently to two vessels, one containing water at 100^@C and the other containing ice at 0^@C . In the second case, the rods are joined end to end and connected to the same vessels. Let q_1 and q_2 gram per second be the rate of melting of ice in the two cases respectively. The ratio q_1/q_2 is: