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Chapter 3: Q44P (page 126)

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 .

Short Answer

Expert verified

The distance of the center of the Sun and the center of the mass of the Earth-Sun system is

Step by step solution

01

Identification of the given data

The given data can be listed below as,

The mass of the earth is
The mass of the Sun is
The center-to-center distance of the earth and the Sun is

02

Significance of the law of the center of mass of the Earth-moon system

The law of the center of mass states that if a rigid object is pushed at its center of mass, then the object will always continue to move.

The equation of the position of the center of mass gives the distance of the center of mass of the Earth-Sun system.

03

Determination of the distance of the center of the earth to the center of mass of the Earth-Moon system

From the law of the center of mass, the distance of the earth’s center to the Earth-Sun system is expressed as:

Here,is the distance of the earth’s center to the Earth-Sun system, are the mass of the sun and the earth respectively, are the center to center distance of the sun and the earth and center to center distance of the earth that is 0.

Substituting the values in the above equation, we get-

Thus, the distance of the center of the Sun and the center of the mass of the Earth-Sun system is

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Most popular questions from this chapter

Astar exerts a gravitational force of magnitude $4 \times 10^{25} N$ on 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?

A planet of mass $4 \times 10^{24} kg$ is at location $〈 5 e 11, - 2 e 11, 0 〉 m$ . A star of mass $5 \times 10^{50} kg$ is at location $〈 - 2 e 11, 3 e 11, 0 〉 m$ . It will be useful to draw a diagram of the situation, including the relevant vectors.

(a) What is the relative position vector pointing from the planet to the star?

(b) What is the distance between the planet and the star?

(c) What is the unit vector role="math" localid="1657099553132" $\hat{r}$ in the direction of $\hat{r}$ ?

(d) What is the magnitude of the force exerted on the planet by the star?

(e) What is the magnitude of the force exerted on the star by the planet?

(f) What is the (vector) force exerted on the planet by the star?

(g) What is the (vector) force exerted on the star by the planet?

Use data from the inside back cover to calculate the gravitational and electric forces two electrons exert on each other when they are apart (about one atomic radius). Which interactions between two electrons is stronger, the gravitational attraction or the electric repulsion? If the two electrons are at rest, will they begin to move toward each other or away from each other? Note that since both the gravitational and the electric forces depend on the inverse square distance, this comparison holds true at all distances, not just at a distance of .

A car of mass $2045 kg$ moving in the x direction at a speed of $29 m / s$ strikes a hovering mosquito of mass $2.5 mg$ , and the mosquito is smashed against the windshield. The interaction between the mosquito and the windshield is an electric interaction between the electrons and protons in the mosquito and those in the windshield. (a) What is the approximate momentum change of the mosquito? Give magnitude and direction. Explain any approximations you make. (b) At a particular instant during the impact, when the force exerted on the mosquito by the car is F, what is the magnitude of the force exerted on the car by the mosquito? (c) What is the approximate momentum change of the car? Give magnitude and direction. Explain any approximations you make. (d) Qualitatively, why is the collision so much more damaging to the mosquito than to the car?

A steel ball of mass $m$ falls from a height $h$ onto a scale calibrated in newtons. The ball rebounds repeatedly to nearly the same height $h$ . The scale is sluggish in its response to the intermittent hits and displays an average force $F$ avg, such that $F_{\ t e x t {a v g}} T = F E_{t},$ where $F y_{t}$ is the brief impulse that the ball imparts to the scale on every hit, and $T$ is the time between hits.

Question: Calculate this average force in terms of $m, h$ and physical constants. Compare your result with the scale reading if the ball merely rests on the scale. Explain your analysis carefully (but briefly).

See all solutions

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