The position vector of a particle of mass \(m\) moving with a constant velocity \(\mathbf{u}\) is given by \(\mathbf{r} = x(t)\hat{i} + b\hat{j}\), where \(b\) is a constant. At an instant, \(\mathbf{r}\) makes an angle \(\theta\) with the x-axis as shown in the figure. The variation of the angular momentum of the particle about the origin with \(\theta\) will be:
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The Correct Option is A
Solution and Explanation
Step 1: The angular momentum \( \mathbf{L} \) of a particle about the origin is given by the cross product:
\[ \mathbf{L} = \mathbf{r} \times m \mathbf{u} \]
where \( \mathbf{r} \) is the position vector and \( \mathbf{u} \) is the velocity vector.
Step 2: The magnitude of the angular momentum is given by:
\[ L = |\mathbf{r}| \cdot m |\mathbf{u}| \cdot \sin \theta \]
where \( \theta \) is the angle between \( \mathbf{r} \) and \( \mathbf{u} \).
Step 3: Since \( b \) is constant and the particle moves in a straight line, the angular momentum varies with \( \theta \), and the correct expression is:
\[ L = |\mathbf{r}| \cdot |\mathbf{u}| \cdot \sin \theta. \]
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