3. Use the method of components to determine the resultant force acting on the syst below. State the magnitude, direction, and sense of the resultant force.
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- Needs Complete solution with 100 % accuracy.15) Consider the three vectors shown below in the attache image. In this example, each vector represents a force in Newton’s (N). Each vector can be resolved into an x and y component. Resolve vector A into its x and y components. Round your answers to two decimal places. x component of vector A: _________________________________ y component of vector A: _________________________________ 16) Suppose Vishal goes for a long jog. During his journey: He travels 25 m east, Then 50 m at an angle of 40° N of E (North of East) Then 10 m North, Then 60 m at an angle of 30° S of W (South of West) Calculate Vishal’s displacement. Note: Specify the magnitude, angle, and reference of the displacement vector. Include all units with your answers and round your answers to two decimal places. Magnitude: _________________ Angle: ______________________ Reference: ______________________4. In the diagram at the right, a 12-kg mass is acted on by two forces. Fi is the applied force and acts to a= 7.5 15.5 0=0.6'mls the right. Fz is the frictional force and acts to the left. The magnitude of the forces is as shown 12 Kg What is the mognitude of the occeleretion of the mass?
- 6. Use the method of components to determine the resultant force acting on the system below. State the magnitude, direction, and sense of the resultant force. 250 N 30° 400 N 300 N6) Using the concurrent force system below, answer the following questions. a) Graph the vector addition of the system including the resultant vector, R 300 lb b) Estimate the resultant force from the graph. 45° 60° 400 lb 200 lb3. Use vector components to find the magnitude and direction of a force vector needed to balance the forces of 400 N @ 145 degrees and 400 N @ 260 degrees.