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The figure shows an overhead view of a 0.028 kg lemon half and two of the...
The figure shows an overhead view of a 0.029 kg lemon half and two of the...
The figure shows an overhead view of a 0.029 kg lemon half and two of the three horizontal forces that act on it as it is on a frictionless table. Force 1 has a magnitude of 6 N and is at 02 = 33°. Force F2 has a magnitude of 6 N and is at O2 = 30°. In unit-vector notation, what is the third force if the lemon half (a) is stationary, (b) has the constant velocity 131 –...
The figure shows an overhead view of a 0.02 kg lemon half and two of the...
The figure shows an overhead view of a 0.02 kg lemon half and two of the three horizontal forces that act on it as it is on a frictionless table. Force 1 has a magnitude of 8 N and is at 62 = 31°. Force F2 has a magnitude of 8 N and is at 82 = 32º. In unit-vector notation, what is the third force if the lemon half (a) is stationary, (b) has the constant velocity 111 –...
Forces F1, F2,and F3 act on the structure of the figure, shown in an overhead view....
Forces F1, F2,and F3 act on the structure of the figure, shown in an overhead view. We wish to put the structure in equilibrium by applying a fourth force, at a point such as P. The fourth force has vector components h and r v . We are given that a 2.03 m, b 3.07 m,c1.71 m, F1 -13.7 N, F2 16.1 N, and F3 3.58 N. Find (a) magnitude of Fh (b) magnitude of Fv, and (c) d (a)...
A crate sits on wooden horizontal surface (a wooden floor). The figure shows a top view...
A crate sits on wooden horizontal surface (a wooden floor). The figure shows a top view of this looking down onto the crate (gravity would be acting into the page). Man one and man two apply forces F1 and F2, at angles of θ1 and θ2 respectively, with the goal of moving the crate in the x-direction. A resultant force of Fr = 31 lbs in the x-direction is required to accomplish this. All of the forces are in the...
The drawing shows a top view of a hockey puck as it slides across frictionless ice....
The drawing shows a top view of a hockey puck as it slides across frictionless ice. Three forces act on the puck, and it is in equilibrium. The force F is applied at the center and has a magnitude of 31 N. The force F1 is applied at the top edge, and F2 is applied half way between the center and the bottom edge. Find the magnitude of F1 and F2.
There are two forces on the 1.86 kg box in the overhead view of the figure...
There
are two forces on the 1.86 kg box in the overhead view of the
figure but only one is shown. For F1 = 29.7 N,
a = 10.1 m/s2, and θ = 30.3°, find the second
force (a) in unit-vector notation and as
(b) a magnitude and (c) a
direction. (State the direction as a negative angle measured from
the +x direction.)
There are two forces on the 1.86 kg box in the overhead view of the figure but...
There are two forces on the 1.30 kg box in the overhead view of the figure...
There are two forces on the 1.30 kg box in the overhead view of the figure but only one is shown. For F1-12.6 N, a -14.8 m/s2, and -25.10, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.)
There are two forces on the 1.38 kg box in the overhead view of the figure...
There are two forces on the 1.38 kg box in the overhead view of the figure but only one is shown. For F1-11.7 N, a = 10.5 m/s2, and θ = 28.4°, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.)
The helicopter view in the figure below shows two people pulling on a stubborn mule. (Take F1...
The helicopter view in the figure below shows two people pulling on a stubborn mule. (Take F1 = 111 N and F2 = 87.0 N.) An illustration shows the helicopter view of a mule being pulled along a forked road in two directions by two men. An x y coordinate system is overlaid on the image, with the origin at the mule's nose, and the mule facing in the positive y-direction. The man on the right is pulling the mule toward...
At one instant in time, the situation shown in the figure happens. A 7.01 kg particle...
At one instant in time, the situation shown in the figure
happens. A 7.01 kg particle P has a position vector
r of magnitude 3.19 m and angle
θ1 = 45° and a velocity vector
v of magnitude 1.37 m/s and angle
θ2 = 30°. Force F of magnitude
9.13 N and angle θ3 = 30° acts on P. All three
vectors lie in the xy-plane.
About the origin, what is the angular momentum of P, in
kg•m2/s?
Determine the...
The figure shows an overhead view of a 0.029 kg lemon half and two of the three horizontal forces that act on it as it is on a frictionless table. Force 1 has a magnitude of 6 N and is at 02 = 33°. Force F2 has a magnitude of 6 N and is at O2 = 30°. In unit-vector notation, what is the third force if the lemon half (a) is stationary, (b) has the constant velocity 131 –...
The figure shows an overhead view of a 0.02 kg lemon half and two of the three horizontal forces that act on it as it is on a frictionless table. Force 1 has a magnitude of 8 N and is at 62 = 31°. Force F2 has a magnitude of 8 N and is at 82 = 32º. In unit-vector notation, what is the third force if the lemon half (a) is stationary, (b) has the constant velocity 111 –...
Forces F1, F2,and F3 act on the structure of the figure, shown in an overhead view. We wish to put the structure in equilibrium by applying a fourth force, at a point such as P. The fourth force has vector components h and r v . We are given that a 2.03 m, b 3.07 m,c1.71 m, F1 -13.7 N, F2 16.1 N, and F3 3.58 N. Find (a) magnitude of Fh (b) magnitude of Fv, and (c) d (a)...
There
are two forces on the 1.86 kg box in the overhead view of the
figure but only one is shown. For F1 = 29.7 N,
a = 10.1 m/s2, and θ = 30.3°, find the second
force (a) in unit-vector notation and as
(b) a magnitude and (c) a
direction. (State the direction as a negative angle measured from
the +x direction.)
There are two forces on the 1.86 kg box in the overhead view of the figure but...
There are two forces on the 1.30 kg box in the overhead view of the figure but only one is shown. For F1-12.6 N, a -14.8 m/s2, and -25.10, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.)
There are two forces on the 1.38 kg box in the overhead view of the figure but only one is shown. For F1-11.7 N, a = 10.5 m/s2, and θ = 28.4°, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.)
At one instant in time, the situation shown in the figure
happens. A 7.01 kg particle P has a position vector
r of magnitude 3.19 m and angle
θ1 = 45° and a velocity vector
v of magnitude 1.37 m/s and angle
θ2 = 30°. Force F of magnitude
9.13 N and angle θ3 = 30° acts on P. All three
vectors lie in the xy-plane.
About the origin, what is the angular momentum of P, in
kg•m2/s?
Determine the...
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