Calculating Force and Acceleration Vectors

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To calculate the acceleration of a 28kg mass acted upon by two forces, F1 (8N east) and F2 (10N at 50 degrees west of north), it is essential to resolve F2 into its west and north components using trigonometric functions. Drawing a diagram can help visualize the vectors and their components, simplifying the addition of these forces. Once the components are determined, the magnitude can be found using Pythagorean theorem, while the direction can be calculated using arctangent. Geometric methods, such as plotting vectors on a grid, can also aid in understanding the problem. Properly combining these components will yield the desired acceleration magnitude and direction.
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I'm having trouble with this question because of the angles. Could someone point me in the right direction.

Two forces F1 and F2 act on a body of mass 28kg. F1 has a magnitude of 8N and is directed due east. The second force F2 has a magnitude of 10N and acts in a direction 50 degrees west of north. Find the magnitude and direction of the acceleration of the 28kg mass.
 
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Maybe you'll find it easier to think of F2 as being "40 degrees north of west" instead of "50 degrees west of north". Then, resolve F2 into a West component and a North component using sin 50 and cos 50. The question is, which is which?

Draw a diagram & you should be able to figure that out.
 
You needn't change the angles...Simply choosing mutually perpendicular axis and ading the vectors in terms of components will do the job...

Daniel.
 
vectors and angles...

I think I understand how to figure out each component individually but am unsure how to put them together toget the magnitude and direction.
 
If you have the components,the u can make use of the right triangles and of Pythagora's theorem (for the absolute value/magnitude) and arctangent (for direction/angle)...

It's not difficult.

Daniel.
 
try doing it geometrically if you don't see it algebraically. Plot the vectors on a grid, head to tail, and then using the points coordinates, find the magnitude by using length of a line formula.

Regards,

Nenad
 

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