MHT CET · Physics · Mathematics in Physics
Resultant of two vectors \(\overrightarrow{\mathrm{P}}\) and \(\overrightarrow{\mathrm{Q}}\) is of magnitude \(\mathrm{R}_{1}\). If direction of \(\overrightarrow{\mathrm{Q}}\) is reversed, the resultant is of magnitude \(\mathrm{R}_{2}\). The value of \(\left(\mathrm{R}_{1}^{2}+\mathrm{R}_{2}^{2}\right)\) is \([\cos (\pi-\theta)=-\cos \theta]\)
- A \(\left(\mathrm{P}^{2}+\mathrm{Q}^{2}\right)\)
- B \(2\left(\mathrm{P}^{2}+\mathrm{Q}^{2}\right)\)
- C \(2\left(\mathrm{P}^{2}-\mathrm{Q}^{2}\right)\)
- D \(\left(\mathrm{P}^{2}-\mathrm{Q}^{2}\right)\)
Answer & Solution
Correct Answer
(B) \(2\left(\mathrm{P}^{2}+\mathrm{Q}^{2}\right)\)
Step-by-step Solution
Detailed explanation
Given,
\(P+Q=R\)
After reversing direction of \(R\), we gel
\(\begin{array}{l}-R=-P-Q \\S=-P-Q\end{array}\)
So let angle between \(P\) and \(Q\) be \(Q\)
So resultants.
\(\begin{array}{l}R^{2}=P^{2}+Q^{2}+2 P Q \cos \theta \\S^{2}=P^{2}+Q^{2}-2 P Q \cos \theta \quad \frac{-(1)}{(2)}\end{array}\)
Adthing equation (1) and (2)
\(R^{2}+S^{2}=2\left(P^{2}+Q^{2}\right)\)
So, the correct answer is \(R^{2}+s^{2}=2\left(p^{2}+Q^{2}\right)\)
\(P+Q=R\)
After reversing direction of \(R\), we gel
\(\begin{array}{l}-R=-P-Q \\S=-P-Q\end{array}\)
So let angle between \(P\) and \(Q\) be \(Q\)
So resultants.
\(\begin{array}{l}R^{2}=P^{2}+Q^{2}+2 P Q \cos \theta \\S^{2}=P^{2}+Q^{2}-2 P Q \cos \theta \quad \frac{-(1)}{(2)}\end{array}\)
Adthing equation (1) and (2)
\(R^{2}+S^{2}=2\left(P^{2}+Q^{2}\right)\)
So, the correct answer is \(R^{2}+s^{2}=2\left(p^{2}+Q^{2}\right)\)
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