A tugboat tows a barge at constant speed with a 3800-kg cable, as shown in the...
A tugboat tows a barge at constant speed with a 3800-kg cable, as shown in the figure
Part A.)If the angle the cable makes with the horizontal where it attaches to the barge and the tugboat is 22 ∘ , find the force the cable exerts on the barge in the forward direction.
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A tugboat tows a barge at constant speed with a 3800-kg cable,
as shown in the...
A tugboat tows a ship with a constant force of magnitude F1. The increase in the...
A tugboat tows a ship with a constant force of magnitude
F1. The increase in the ship's speed during a
10 s interval is 2.0km/h. When a second tugboat applies an
additional constant force of magnitude F2 in
the same direction, the speed increases by 12 km/h during a 10 s
interval. How do the magnitudes of F1 and
F2 compare? (Neglect the effects of water
resistance and air resistance.)
My Notes Ask Your Teacher 0/1 points | Previous Answers...
A tugboat tows a ship at a constant velocity. The tow harness consists of a single...
A tugboat tows a ship at a constant velocity. The tow harness consists of a single tow cable attached to the tugboat at point A that splits at point B and attaches to the ship at points C and . The two rope segments BC and BD angle away from the center of the ship at angles o 350 and -5 respective The boat pulls with a re o 295 0 What are the tensions Tec and TBD in the...
4. Two horses are pulling a barge with mass 2.0 * 10 kg along a canal....
4. Two horses are pulling a barge with mass 2.0 * 10 kg along a canal. The cable connected to the 1st horse makes an angle 0. = 40° with respect to the canal, while the cable connected to the 2nd horse makes an angle 02 = -20°. a. Find the acceleration of the barge, if each horse exerts a force of magnitude 6.00 * 102 N on the barge. b. What is the magnitude of the total force? Ignore...
Two canal workers pull a barge along the narrow waterway at a constant speed. One worker...
Two canal workers pull a barge along the narrow waterway at a constant speed. One worker pulls with a force of 165 N at an angle of 32.5° with respect to the forward motion of the barge and the other worker, on the opposite tow path, pulls at an angle of 35.7° relative to the barge motion. Both ropes are parallel to the ground. Part 1 out of 2 (a) With what magnitude force should the second worker pull to...
A 1160-kg car is being pulled up a frictionless ramp at a constant speed, as shown in the figure
A 1160-kg car is being pulled up a frictionless ramp at a constant speed, as shown in the figure. (Figure 1) The cable makes an angle of 31.0° above the surface of the ramp, and the ramp itself rises at 25.0° above the horizontal. Find the tension in the cable How hard does the surface of the ramp push on the car?
Please help A 1.0 times 10^3 kg car is being raised at a constant speed by...
Please help
A 1.0 times 10^3 kg car is being raised at a constant speed by two cables attached to it, one on its east end and one on its west end, each at an angle of 45 degree to the horizontal. What is the x component of the force that the car exerts on the cable attached to its east end?
A car of mass 1300 kg is towed at a steady speed by a cable held...
A car of mass 1300 kg is towed at a steady speed by a cable held at an angle of 20° above the horizontal. A frictional force of 500 N opposes the motion of the car. Find the tension in the cable
A 90.0 kg box is pushed by a horizontal force F at constant speed up a...
A 90.0 kg box is pushed by a horizontal force F at constant speed up a frictionless ramp which makes an angle of 43.0 deg with the horizontal. Find the magnitude of the applied force F.
27.2 kg mass is suspended by the cable assembly as shown in the figure below. The...
27.2 kg mass is suspended by the cable assembly as shown in the figure below. The cables have no mass of their own. The cable to the left (cable 1) of the mass makes an angle, theta θ1 = 0.00° with the horizontal, and the cable to the right (cable 2) makes an angle, theta θ2 = 38.5°. If the mass is at rest what is the tension in each of the cables, T1 and T2? The acceleration due to...
A 28.9 kg mass ( m ) is suspended by the cable assembly as shown in...
A 28.9 kg mass ( m ) is suspended by the cable assembly as shown in the figure. The cables have no mass of their own. The cable to the left ( T 1 ) of the mass makes an angle of 0.00 ∘ with the horizontal, and the cable to the right ( T 2 ) makes an angle ( θ 2 ) of 34.3 ∘ . If the mass is at rest, what is the tension in each...
A tugboat tows a ship with a constant force of magnitude
F1. The increase in the ship's speed during a
10 s interval is 2.0km/h. When a second tugboat applies an
additional constant force of magnitude F2 in
the same direction, the speed increases by 12 km/h during a 10 s
interval. How do the magnitudes of F1 and
F2 compare? (Neglect the effects of water
resistance and air resistance.)
My Notes Ask Your Teacher 0/1 points | Previous Answers...
A tugboat tows a ship at a constant velocity. The tow harness consists of a single tow cable attached to the tugboat at point A that splits at point B and attaches to the ship at points C and . The two rope segments BC and BD angle away from the center of the ship at angles o 350 and -5 respective The boat pulls with a re o 295 0 What are the tensions Tec and TBD in the...
4. Two horses are pulling a barge with mass 2.0 * 10 kg along a canal. The cable connected to the 1st horse makes an angle 0. = 40° with respect to the canal, while the cable connected to the 2nd horse makes an angle 02 = -20°. a. Find the acceleration of the barge, if each horse exerts a force of magnitude 6.00 * 102 N on the barge. b. What is the magnitude of the total force? Ignore...
Please help
A 1.0 times 10^3 kg car is being raised at a constant speed by two cables attached to it, one on its east end and one on its west end, each at an angle of 45 degree to the horizontal. What is the x component of the force that the car exerts on the cable attached to its east end?
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