A rope supports a 10 kg dumbbell hanging from it. What is the tension in the rope?
A rope supports a 10 kg dumbbell hanging from it. What is the tension in the...
A 10 kg iron block (density= 7900 kg/m^3) is hanging from the rope. What is the tension in the rope if the block is immersed in a liquid of density 850 kg/m^3?
A block of weight 45.3 N is hanging from a rope. The tension from the rope is pulling upward on the block. The block is accelerating downward at a rate of 1.46 m/s2. What is the magnitude of the tension in the rope?
A 32.9-kg child swings on a rope with a length of 6.11 m that is hanging from a tree. At the bottom of the swing, the child is moving at a speed of 4.2 m/s. What is the tension in the rope?
An 89 kg box hangs from a rope. A. What is the tension in the rope if the box is at rest? Express your answer in newtons. B. What is the tension in the rope if the box has vy = 8.0 m/s and is speeding up at 8.0 m/s2 ? Express your answer in newtons.
What is the tension in the rope of the figure? Assume that m =
64 kg .
What is the tension in the rope of the figure? Assume that m = 64 kg .
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. The pulley can be approximated by a uniform disk with mass mp=6.33 kg and radius rp=0.250 m. The hanging masses are mL=21.1 kg and mR=14.1 kg.Calculate the magnitude of the masses' acceleration a and the tension in the left and right ends of the rope, TL and TR , respectively.
the 10. What is the tension in the rope what is the tension in the rope and the total hinge force acting on the beam beam weighs SOON and w-1000N. 752 20
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. The pulley can be approximated by a uniform disk with mass m = 4.53 kg and radius r = 0.450 m. The hanging masses are mu = 20.5 kg and mr = 12.7 kg. Calculate the magnitude of the masses' acceleration a and the tension in the left and right ends of the rope, T, and Tr, respectively. mi m/s2 TL...
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. The pulley can be approximated by a uniform disk with mass mp = 5.13 kg and radius rp = 0.250 m. The hanging masses are mı = 19.7 kg and mr = 11.7 kg. Calculate the magnitude of the masses' acceleration a and the tension in the left and right ends of the rope, Ti, and TR respectively. my m/s2 N...
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. The pulley can be approximated by a uniform disk with mass m, = 5.53 kg and radius rp = 0.150 m. The hanging masses are m = 17.1 kg and mp = 12.1 kg. Calculate the magnitude of the masses' acceleration a and the tension in the left and right ends of the rope, T and Tr, respectively. m m/s2 a...