Cosine and Sine rules to get magnitude and direction of a resultant force

AI Thread Summary
To determine the magnitude and direction of the resultant force from two forces acting at specified angles, it is essential to resolve each force into its horizontal and vertical components. The cosine rule can be applied to find the magnitude of the resultant force using the formula R^2 = X^2 + Y^2 - 2XYcosβ. For direction, the sine rule is utilized, expressed as (Sin β / length of opposite line) = (sinθ / length of opposite line). Drawing a diagram can significantly aid in visualizing the forces and applying these rules effectively. Understanding these methods is crucial for solving problems involving forces and angles.
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Use the cosine and sine rules to determine the magnitude and direction of the resultant of a force of 11 kN acting at an angle of 50 degrees to the horizontal and a force of 6 kN acting at an angle of -30 degrees to the horizontal.

helppp please
 
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What have you tried doing? Have you drawn a diagram of the situation -- Will make things much easier.
 
No i haven't.
Do you know how to find resultant forces with forces and angles from axises? because I have another problem like that and i have no idea how to do them
 
Well maybe draw one then :smile: At least then you actually have a triangle to apply the cosine and sine rules to.

If you are given forces and angles relative to axes, you could again do the same thing and form a triangle to be solved with geometry, or perhaps easier would be to resolve each force into a horizontal and vertical component and add the components.
 
Hi All
to get magnitude of resultant use cosin rule R^2= X^2+Y^2 – 2XYcosβ
to get the direction use sine rule = (Sin β /length of opposite line) = (sinθ/ length of opposite line)
 

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