What will be the effect on horizontal ra...

What will be the effect on horizontal range of a projectile when its initial velocity is doubled, keeping the angle projection same ?

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To solve the problem of how the horizontal range of a projectile changes when its initial velocity is doubled while keeping the angle of projection the same, we can follow these steps: ### Step-by-Step Solution: 1. **Understand the Formula for Range**: The range \( R \) of a projectile is given by the formula: \[ R = \frac{u^2 \sin(2\theta)}{g} ...

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If a projectile having horizontal range of 24 m acquires a maximum height of 8 m, then its initial velocity and the angle of projection are

`5sqrt(g), sin^(-1) (0.6)`

`5sqrt(g), sin^(-1) (0.8)`

`24sqrt(g), sin^(-1) (0.6)`

`8sqrt(g), sin^(-1) (0.8)`

The horizontal range of projectile is 4sqrt(3) times the maximum height achieved by it, then the angle of projection is

`30^(@)`

`45^(@)`

`60^(@)`

`90^(@)`

What will be the effect on horizontal range of a projectile when its initial velocity is doubled, keeping the angle projection same ?

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If a projectile having horizontal range of 24 m acquires a maximum height of 8 m, then its initial velocity and the angle of projection are

The horizontal range of projectile is 4sqrt(3) times the maximum height achieved by it, then the angle of projection is

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