Two equal forces are acting at a point. The square of their resultant is three times their product. Then the angle between those vectors is :
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Given two forces P and Q, such that | P | = P, | Q | = Q, and P = Q, acting at a point, such that square of magnitude R of resultant R of P and Q is 3 P² = 3 Q². We are required to find the angle between P and Q.
Let the angle between P and Q is ∅. Then by parallelogram law of vectors we have for the resultant, that,
R² = P² + Q² + 2 P Q Cos ∅ = P² + P² + 2 P P Cos ∅= 2 P² + 2 P² Cos ∅. ……..(1)
We are given that R² = 3 P². Substituting for R² in equation 1, we get,
3 P² = 2 P² + 2 P² Cos ∅, or Cos ∅ = ½ or ∅ = 60° .
The angle between the two forces is 60° .
Let the angle between P and Q is ∅. Then by parallelogram law of vectors we have for the resultant, that,
R² = P² + Q² + 2 P Q Cos ∅ = P² + P² + 2 P P Cos ∅= 2 P² + 2 P² Cos ∅. ……..(1)
We are given that R² = 3 P². Substituting for R² in equation 1, we get,
3 P² = 2 P² + 2 P² Cos ∅, or Cos ∅ = ½ or ∅ = 60° .
The angle between the two forces is 60° .
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