Three rugby players are pulling horizontally on ropes attached to a box, which remains stationary. Player 1 exerts a force F equal to 200 N at an angle 0, equal to –60.0° with respect to the +x-direction, as shown in the figure. Player 2 exerts a force F2 equal to 300 N at an angle 02 equal to 37.0° with respect to the +x-direction. The view in the figure is from above. Ignore friction and note that gravity can be ignored in this problem. Determine the force F3 exerted by player 3. State your answer by giving the x- and y-components, F3, and Fay, respectively. F, F3x -339.59 N F3y N Player 3's rope breaks, and player 2 adjusts by pulling with a force of magnitude F; equal to 250 N at the same angle as before. Defining angles above the x-axis as positive and those below as negative, at what angle 0 is the acceleration of the box relative to the +x-direction? The magnitude of the acceleration is measured to be 10.0 m/s?. What is the mass m of the box? kg m = F TOOLS x10
Three rugby players are pulling horizontally on ropes attached to a box, which remains stationary. Player 1 exerts a force F equal to 200 N at an angle 0, equal to –60.0° with respect to the +x-direction, as shown in the figure. Player 2 exerts a force F2 equal to 300 N at an angle 02 equal to 37.0° with respect to the +x-direction. The view in the figure is from above. Ignore friction and note that gravity can be ignored in this problem. Determine the force F3 exerted by player 3. State your answer by giving the x- and y-components, F3, and Fay, respectively. F, F3x -339.59 N F3y N Player 3's rope breaks, and player 2 adjusts by pulling with a force of magnitude F; equal to 250 N at the same angle as before. Defining angles above the x-axis as positive and those below as negative, at what angle 0 is the acceleration of the box relative to the +x-direction? The magnitude of the acceleration is measured to be 10.0 m/s?. What is the mass m of the box? kg m = F TOOLS x10
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter2: Vectors
Section: Chapter Questions
Problem 26P: In a tug-of-war game on one campus, 15 students pull on a rope at both ends in an effort to displace...
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![Three rugby players are pulling horizontally on ropes attached
to a box, which remains stationary. Player 1 exerts a force F
equal to 200 N at an angle 0, equal to –60.0° with respect to
the +x-direction, as shown in the figure. Player 2 exerts a
force F2 equal to 300 N at an angle 02 equal to 37.0° with
respect to the +x-direction. The view in the figure is from
above. Ignore friction and note that gravity can be ignored in
this problem.
Determine the force F3 exerted by player 3. State your answer
by giving the x- and y-components, F3, and Fay, respectively.
F,
F3x
-339.59
N
F3y
N
Player 3's rope breaks, and player 2 adjusts by pulling with a
force of magnitude F; equal to 250 N at the same angle as
before. Defining angles above the x-axis as positive and those
below as negative, at what angle 0 is the acceleration of the
box relative to the +x-direction?
The magnitude of the acceleration is measured to be
10.0 m/s?. What is the mass m of the box?
kg
m =
F TOOLS
x10](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffd47ee59-8c02-4471-82b7-8a3c00daed6e%2Fe4a6ac3b-b7b8-4986-b59e-6d7947fe8185%2F8xrj3vb_processed.png&w=3840&q=75)
Transcribed Image Text:Three rugby players are pulling horizontally on ropes attached
to a box, which remains stationary. Player 1 exerts a force F
equal to 200 N at an angle 0, equal to –60.0° with respect to
the +x-direction, as shown in the figure. Player 2 exerts a
force F2 equal to 300 N at an angle 02 equal to 37.0° with
respect to the +x-direction. The view in the figure is from
above. Ignore friction and note that gravity can be ignored in
this problem.
Determine the force F3 exerted by player 3. State your answer
by giving the x- and y-components, F3, and Fay, respectively.
F,
F3x
-339.59
N
F3y
N
Player 3's rope breaks, and player 2 adjusts by pulling with a
force of magnitude F; equal to 250 N at the same angle as
before. Defining angles above the x-axis as positive and those
below as negative, at what angle 0 is the acceleration of the
box relative to the +x-direction?
The magnitude of the acceleration is measured to be
10.0 m/s?. What is the mass m of the box?
kg
m =
F TOOLS
x10
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