Forces of P1, P2 and P3 are defined below. Each angle for each Force is also shown below, P1 at 30°, P2 at 45° and P3 at 60°, as measured from the horizontal. The forces act through a single point at the same time. What is the component force for each Force? (Solve for P 1x, P 1y; P 2x, P 2y and P 3x, P 3y). Show your work
Forces of P1, P2 and P3 are defined below. Each angle for each Force is also shown below, P1 at 30°, P2 at 45° and P3 at 60°, as measured from the horizontal. The forces act through a single point at the same time. What is the component force for each Force? (Solve for P 1x, P 1y; P 2x, P 2y and P 3x, P 3y). Show your work
Forces of P1, P2 and P3 are defined below. Each angle for each Force is also shown below, P1 at 30°, P2 at 45° and P3 at 60°, as measured from the horizontal. The forces act through a single point at the same time. What is the component force for each Force? (Solve for P 1x, P 1y; P 2x, P 2y and P 3x, P 3y). Show your work
Forces of P1, P2 and P3 are defined below. Each angle for each Force is also shown below, P1 at 30°, P2 at 45° and P3 at 60°, as measured from the horizontal. The forces act through a single point at the same time. What is the component force for each Force? (Solve for P 1x, P 1y; P 2x, P 2y and P 3x, P 3y). Show your work
Transcribed Image Text:P: P₂
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P
P.
P.
P
2x
3x
2
3
-
1
-
30°
45°
60
3y
P
11
Figure in plane geometry formed by two rays or lines that share a common endpoint, called the vertex. The angle is measured in degrees using a protractor. The different types of angles are acute, obtuse, right, straight, and reflex.
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