If the 75-kg crate starts from rest at A, and its speed is 6 m/s when it passes 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.
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If the 75-kg crate starts from rest at A, and its speed is 6 m/s when it passes point B
A The 75-kg crate starts from rest at A
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 cord is subjected to a constant force of F = 300N and the 15 kg smooth collar starts from rest at A
If the cord is subjected to a constant force of F = 300N and the 15 kg smooth collar starts from rest at A, determine the velocity of the collar when it reaches point B. Neglect the size of the pulley. ANSWER: 3.34 m/s
If the 50-kg crate starts from rest and travels a distance of 6 m up the plane in 4 s
If the 50-kg crate starts from rest and travels a distance of 6 m up the plane in 4 s, determine the magnitude of force P acting on the crate. The coefficient of kinetic friction between the crate and the ground is μk = 0.25.
If the cord is subjected to a constant force of F 300 N and the 16 kg smooth collar starts from rest at A
If the cord is subjected to a constant force of F 300 N and the 16 kg smooth collar starts from rest at A, determine the velocity of the collar when it reaches point B. Neglect the size of the pulley. (Figure 1)
Q3 Figure 3.1 shows a 100 kg crate starts from rest and achieves a velocity of...
Q3 Figure 3.1 shows a 100 kg crate starts from rest and achieves a velocity of v = 3 m/s when it travels a distance of 6 m to the right. Determine the magnitude of force P acting on the crate if: (a) the coefficient of kinetic friction between the crate and the floor is 0.35. (15 marks) (b) the contact between the crate and the floor is smooth. (10 marks) P 30° Figure 3.1: A crate moved by force...
The 50-kg crate shown below starts from rest and achieves a velocity of 4 m/s after...
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...
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...
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...
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...
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°
Q3 Figure 3.1 shows a 100 kg crate starts from rest and achieves a velocity of v = 3 m/s when it travels a distance of 6 m to the right. Determine the magnitude of force P acting on the crate if: (a) the coefficient of kinetic friction between the crate and the floor is 0.35. (15 marks) (b) the contact between the crate and the floor is smooth. (10 marks) P 30° Figure 3.1: A crate moved by force...
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°
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