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Chapter 3: Q41P (page 126)

Two balls of mass are connected by a low-mass spring (Figure 3.63). This device is thrown through the air with low speed, so air resistance is negligible. The motion is complicated: the balls whirl around each other, and at the same time the system vibrates, with continually changing stretch of the spring. At a particular instant, the ball has a velocity and the ball has a velocity. a) At this instant, what is the total momentum of the device? b) What is the net gravitational (vector) force exerted by the earth on the device? c) At a time later, what is the total momentum of the device?

Short Answer

Expert verified

a) the total momentum of the device is, b) the net gravitational (vector) force exerted by the earth on the device is and c) the total momentum of the device is

Step by step solution

01

Identification of the given data

The given data can be listed below as,

  • The mass of the first ball is

  • The mass of the second ball is

  • The first ball has a velocity of

  • The second ball has a velocity of

02

Significance of the momentum law for the device

The momentum law states that the amount of the momentum of a body remains constant that is the product of the mass and the velocity.

The equation of the momentum gives the momentum of the body. Moreover, the equation of force gives the net force on the device.

03

Determination of the momentum and the net force on the device

a) From the principle of conservation of the linear momentum, the momentum of the device is expressed as:

Here, P is the momentum of the particle, are the mass and the velocity of the first and the second particle respectively.

Substituting the values in the above equation, we get-

Thus, the total momentum of the device is .

b) From Newton’s gravitational law, the net gravitational force exerted by the earth on the object is expressed as:

Here, F is the net gravitational force, g is the acceleration due to gravity that isare the masses of the first and the second particle respectively.

Substituting the values in the above equation, we get-

Thus, the net gravitational (vector) force exerted by the earth on the device is

c) From the law of conservation of momentum, the equation of the total momentum of the device can be expressed as:

Here, p is the total momentum, F is the net gravitational (vector) force and t is the time required that is

Substituting the values in the above equation, we get-

Thus, the total momentum of the device is

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Most popular questions from this chapter

A star exerts a gravitational force of magnitude -4×1025Non a planet.

(a) What is the magnitude of the gravitational force that the planet exerts on the star?

(b) If the mass of the planet were twice as large, what would be the magnitude of the gravitational force on the planet?

(c)If the distance between the star and planet (with their original masses) were three times larger, what would be the magnitude of this force?

Two balls of mass 0.3kgand0.5kgare connected by a low-mass spring (Figure 3.63). This device is thrown through the air with low speed, so air resistance is negligible. The motion is complicated: the balls whirl around each other, and at the same time the system vibrates, with continually changing stretch of the spring. At a particular instant, the 0.3kgball has a velocity (4,-3,2)m/sand the0.5kgball has a velocity (2,1,4)m/s.a) At this instant, what is the total momentum of the device? b) What is the net gravitational (vector) force exerted by the earth on the device? c) At a timelater, what is the total momentum of the device?

At a particular instant a proton exerts an electric force of on an electron. How far apart are the proton and the electron?

The mass of the Sun is , the mass of the Earth is , and the center-to-center distance is . How far from the center of the Sun is the center of the mass of the Sun-Earth system? Note that the Sun’s radius is .

Suppose that you are going to program a computer to carry out an iterative calculation of motion involving electric forces. Assume that as usual we use the final velocity in each time interval as the approximate average velocity during that interval. Which of the following calculations should be done before starting the repetitive calculation loop? Which of the calculations listed above should go inside the repetitive loop, and in what order?

(a) Define constants such as 14πε0

(b) Update the (vector) position of each object.

(c) Calculate the (vector) forces acting on the objects.

(d) Specify the initial (vector) momentum of each object.

(e) Specify an appropriate value for the time step.

(f) Specify the mass of each object.

(g) Update the (vector) momentum of each object.

(h) Specify the initial (vector) position of each object.
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