As you will see in a later chapter, forces are vector quantities, and the total force on an object is the vector sum of all forces acting on it. In the figure below, a force , of magnitude 6.20 units acts on an object at the origin in a direction - 27.0° above the positive x-axis. A second force , of magnitude 5.00 units acts on the object in the direction of the positive y-axis. Find graphically the magnitude and direction (in degrees counterclockwise from the ex-axis) of the resultant force ₁ +1 units magnitude direction counterclockwise from the +x-axis
As you will see in a later chapter, forces are vector quantities, and the total force on an object is the vector sum of all forces acting on it. In the figure below, a force , of magnitude 6.20 units acts on an object at the origin in a direction - 27.0° above the positive x-axis. A second force , of magnitude 5.00 units acts on the object in the direction of the positive y-axis. Find graphically the magnitude and direction (in degrees counterclockwise from the ex-axis) of the resultant force ₁ +1 units magnitude direction counterclockwise from the +x-axis
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Transcribed Image Text:As you will see in a later chapter, forces are vector quantities, and the total force on an object is the vector sum of all forces acting on it.
In the figure below, a force , of magnitude 6.20 units acts on an object at the origin in a direction - 27.0° above the positive x-axis. A second force , of magnitude 5.00 units acts on the object in
the direction of the positive y-axis. Find graphically the magnitude and direction (in degrees counterclockwise from the ex-axis) of the resultant force ₁ +1
units
magnitude
direction
counterclockwise from the +x-axis
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