With what force must a man pull on the rope to hold the plank in position it the man weights 60 kg? Neglect the weight of the plank, rope and pulley ( Take g= `10m//s^(2))`

What is the weight of a block of mass 10.5 kg ? Take g= 10 m s^(-2)

Tension in the rope at the rigid support is (g=10m//s^(2))

In the above problem, what force should the man exert on the rope to get his correct weight on the machine?

One end of a 60m long rope of mass 1.8 kg is tied to a rigid horizontal support held high above the ground. The rope hangs vertically and kept taut by a weight 'W' suspended at its lower end. A person jerks the lower end of the rope sideways in a sinusoidal manner and a transverse wave of frequency 2 Hz and amplitude 10cm passes along the rope such that there are 2 cycles of the wave in the total length of the rope. Neglecting the weight of the rope as compared to the suspended weight W and with g = 10m/s2, answer the following questions. (S = 75 xx 10^(-4) m^2) In the questions above, weight of the rope has been neglected as compared to the suspended weight. However, if we also account for the weight of the rope. the speed of the wave at the top of the rope will be

A mass of 3kg is suspended by a rope of length 2m from the ceiling. A force of 40N in the' horizontal direction is applied at midpoint P of the rope as shown. What is the angle the rope makes with the vertical in equilibrium and the tension in part of string attached to the ceiling ? (Neglect the mass of the rope, g = 10m//s^2 )

Calculate the weight of a body of mass 10 kg in kgf . Take g = 9.8 "m s"^(-2) .

Calculate the weight of a body of mass 10 kg in newton . Take g = 9.8 "m s"^(-2) .

In order to raise a mass of 100 kg, a man of mass 60 kg fastens a rope to it and passes the rope over a smooth pulley. He climbs the rope with acceleration 5g//4 relative to the rope. The tension in the rope is (take g=10 ms^(-2) )

A small block of mass 1kg is placed over a plank of mass 2kg. The length of the plank is 2 m. coefficient of friction between the block and the plnak is 0.5 and the ground over which plank in placed is smooth. A constant force F=30N is applied on the plank in horizontal direction. the time after which the block will separte from the plank is (g=10m//s^(2))

In fig. the man and the platform together weight 950N. The pulley can be treated as frictionless. Determine how hard the man has to pull on the rope to lift himself upward above the ground with constant velocity. If the weight of man is 550 N, what is the normal reaction between them?