Drops of water from the roof of a house are falling at a regular interval of one second. Find the position of 3rd, 4th and 5th drops when the 6th drop just falls from the roof.

From the top of a tower, two particles are dropped at an interval of 2 s . Find the relative velocity and relative acceleration of the particles during the fall . Acceleration due to gravity =g cm*s^(-2) .

Water is leaking from a conical funnel at the rate of 5 cm^3/sec. If the radius of the base of the funnel is 5 cm and the altitude is 10 cm, find the rate at which the water level is dropping when it is 2.5 cm from the top.

A body of mass 100g is dropped from the top of a tower 100m high. Find its kinetic energy (i) one second after the drop,

Sand is pouring from a pipe at the rate of 12c m^3//sdot The falling sand forms a cone on the ground in such a way that the height of the cone is always 1/6th of the radius of the base. How fast does the height of the sand cone increase when the height in 4 cm?

Vertical rise or fall of a particle under gravity is governed by the equations : (i) v =u +gt, (ii) h = ut + (1)/(2) "gt"^(2) , and (iii) v^(2)= u^(2) +2gh the symbols having their usual meanings. Then for a particle dropped from the top of a tower and falling freely. choose the correct options: The distance covered in the nth second is proportional to