A cane is taken out from a refrigerator at `0^(@)"C"`. The atmospheric temperature is `25^(@)"C"`. If t1 is the time taken to heat from `0^(@)"C"` to `5^(@)"C"` and `t_(2)` is the time taken from `10^(@)"C"` to `15^(@)"C"`, then the wrong statements are
(1) `t_(1)gtt_(2)`
(2)`t_(1)=t_(2)`
(3) There is no relation
(4)`t_(1)ltt_(2)`

A container contains hot water at 100^(@)C . If in time T_(1) temperature falls to 80^(@)C and in time T_(2) temperature falls to 60^(@)C from 80^(@)C , then

The given figure shows the elliptical orbit of a planet m about the sun S. If t_(1) is the time taken by the planet of move from C to D and t_(2) is the time taken by the planet to move from A to B, then the relation between t_(1) and t_(2) is [Given, area SCD = 2 (area SAB)]

A particle executes SHM in accordance with x=A"sin"omegat . If t_(1) is the time taken by it to reach from x=0 to x=sqrt(3)(A//2) and t_(2) is the time taken by it to reach from x=sqrt(3)//2 A to x=A , the value of t_(1)//t_(2) is

The figure shows elliptical orbit of a plant P about the sun S. The shaded area CSD is twice tha shaded area ASB. If t_(1) is the time taken by the planet to move from C to D and t_(2) is the time to move from A to B, determine the ratio t_(1)//t_(2)

A bucket full of hot water cools from 75^(@)C to 70^(@)C in time T_(1) , from 70^(@)C to 65^(@)C in time T_(2) and from 65^(@)C to 60^(@)C in time T_(3) , then

A vessel contains water at 100^(@) C. The temperature falls to 80^(@) C in time T_(1) and to 60^(@) C in further time T_(2) , then

The three distinct point A(t_(1)^(2),2t_(1)),B(t_(2)^(2),2t_(2)) and C(0,1) are collinear,if

A tank full of water has a small hole at its bottom. Let t_(1) be the time taken to empty first one third of the tank and t_(2) be the time taken to empty second one third of the tank and t_(3) be the time taken to empty rest of the tank then (a). t_(1)=t_(2)=t_(3) (b). t_(1)gtt_(2)gtt_(3) (c). t_(1)ltt_(2)ltt_(3) (d). t_(1)gtt_(2)ltt_(3)