3. A 75 lbr crate shown starts from rest and is pulled up the slope (...
A The 75-kg crate starts from rest at A. The cable is subjected to a constant force of F 240 N. Neglect friction and the size of the pulley. (Figure 1) Part ADetermine the speed of the crate when it reaches point B.
If the 75-kg crate starts from rest at A, and its speed is 6 m/s when it passes point B, determine the constant force F exerted on the cable. Neglect friction and the size of the pulley.
A car starts from rest and accelerates at a constant rate until it reaches 75 mi/hr in a distance of 220 ft, at which time the clutch is disengaged. The car then slows down to a velocity of 25 mi/hr in an additional distance of 570 ft with a deceleration which is proportional to its velocity. Find the time t for the car to travel the 790 ft.
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after traveling 5m to the right. Determine the magnitude of force Pin Newtons). You may assume the coefficient of kinetic friction between the crate and ground is uk = 0.3 P 30°
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after traveling 5m to the right. If P - 223.57N and the coefficient of kinetic friction between the crate and ground is Mike = 0.3, determine the work done by friction (in Nm) from s = Om to s = 5m. P 30°
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after traveling 5m to the right. If P = 223.57 N and the coefficient of kinetic friction between the crate and ground is pk = 0.3, determine the work done by friction (in Nm) from s = Om to s = 5m. P 30°
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after traveling 5m to the right. If P = 223.57 N and the coefficient of kinetic friction between the crate and ground is pk = 0.3, determine the work done by friction (in Nm) from s = Om to s = 5m. P 30°
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after traveling 5m to the right. If P= 223.57 N and the coefficient of kinetic friction between the crate and ground is Mk = 0.3, determine the work done by friction (in Nm) from s = Om to s = 5m. P. 30°
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after traveling 5m to the right. If P = 223.57 N and the coefficient of kinetic friction between the crate and ground is plik = 0.3, determine the work done by friction (in Nm) from s = Om to s = 5m. P 30°
Alt Problem 3 (10 pts.) A block of mass, m 4000 kg, is being pulled up a slope of θ = 25°, and it is accelerating at a-1.5 m/s2. The coefficient of kinetic friction is 0.2. Find the tension, T, in the cable.