Question:
A body of mass 2 kg starts moving from the origin (0, 0) with an initial velocity of \( (4\hat{i} + 4\hat{j})\ \text{ms}^{-1} \). A constant force of \( -20\hat{j} \ \text{N} \) is applied on the body. When the Y-coordinate of the position of the body becomes zero again, then its X-coordinate is
A body of mass 2 kg starts moving from the origin (0, 0) with an initial velocity of \( (4\hat{i} + 4\hat{j})\ \text{ms}^{-1} \). A constant force of \( -20\hat{j} \ \text{N} \) is applied on the body. When the Y-coordinate of the position of the body becomes zero again, then its X-coordinate is
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Treat the x and y directions independently; vertical motion here behaves like a projectile under constant acceleration.
Updated On: Jun 3, 2025
- 3.2 m
- 4.2 m
- 2.4 m
- 2.8 m
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The Correct Option is A
Solution and Explanation
Step 1: Force \( \vec{F} = -20\hat{j} \), mass \( m = 2\ \text{kg} \)
\[
a_y = \frac{F_y}{m} = \frac{-20}{2} = -10\ \text{ms}^{-2}
\]
Step 2: Time for vertical motion to return to y = 0:
\[
s_y = u_yt + \frac{1}{2}a_yt^2 \Rightarrow 0 = 4t - 5t^2 \Rightarrow t = 0, t = 0.8\ \text{s}
\]
Step 3: x-displacement during this time:
\[
x = u_xt = 4 \times 0.8 = 3.2\ \text{m}
\]
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