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Chapter 4: Q18CQ (page 160)

Why does an ordinary rifle recoil (kick backward) when fired? The barrel of a recoilless rifle is open at both ends. Describe how Newton’s third law applies when one is fired. Can you safely stand close behind one when it is fired?

Short Answer

Expert verified

The rifle shoots a bullet with a huge amount of force, and hence the bullet applies a backward force on the rifle according to Newton’s third law of motion.

Yes, one can stand behind the rifle when fired when it is put close to the shoulder.

Step by step solution

01

Concept of Newton’s third law of motion

Newton’s Third Law of Motion states that whenever a body exerts a force on another body, the first body experiences a force that is equal in magnitude and opposite in direction to the force that it exerts.

02

Reason for rifle recoil when fired

The rifle shoots a bullet with a huge amount of force, and hence the bullet applies a backward force on the rifle according to Newton’s third law of motion.

In the above case, the force exerted by the rifle on the bullet is given back by the bullet, which is equal in magnitude but opposite in direction.

03

Describe the application of Newton’s third law on the recoilless rifle

When the rifle is open at both ends, the air is pushed backward rather than the rifle itself.

04

How to make it safe to stand behind a rifle when fired

Standing behind the rifle when fired is safe when it is put close to the shoulder. In this way, the whole body absorbs the sudden force.

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Most popular questions from this chapter

Why can we neglect forces such as those holding a body together when we apply Newton’s second law of motion?

Consider the baby being weighed in Figure 4.34.

(a) What is the mass of the child and basket if a scale reading of 55 N is observed?

(b) What is the tension T1 in the cord attaching the baby to the scale?

(c) What is the tension T2 in the cord attaching the scale to the ceiling, if the scale has a mass of 0.500 kg?

(d) Draw a sketch of the situation indicating the system of interest used to solve each part. The masses of the cords are negligible.

(a) Calculate the tension in a vertical strand of spider web if a spider of mass 8.00×10⁻⁵ kg hangs motionless on it.

(b) Calculate the tension in a horizontal strand of spider web if the same spider sits motionless in the middle of it, much like the tightrope walker in Figure 4.17. The strand sags at an angle of 12º below the horizontal. Compare this with the tension in the vertical strand (find their ratio).

The rocket sled shown in Figure 4.33 accelerates at a rate of 49.0 m/s². Its passenger has a mass of 75.0 kg.

(a) Calculate the horizontal component of the force the seat exerts against his body. Compare this with his weight by using a ratio.

(b) Calculate the direction and magnitude of the total force the seat exerts against his body.

(a) Find the magnitudes of the forces F₁ and F₂ that add to give the total force F_tot shown in Figure 4.35. This may be done either graphically or by using trigonometry.

(b) Show graphically that the same total force is obtained independent of the order of addition of F₁and F₂ .

(c) Find the direction and magnitude of some other pair of vectors that add to give F_tot . Draw these to scale on the same drawing used in part (b) or a similar picture.

See all solutions

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