Physics: Principles with Applications
Physics: Principles with Applications
6th Edition
ISBN: 9780130606204
Author: Douglas C. Giancoli
Publisher: Prentice Hall
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Chapter 5, Problem 65P

a)

To determine

The mean distance from the Sun.

a)

Expert Solution
Check Mark

Answer to Problem 65P

Solution:

  179AU

Explanation of Solution

Orbital period of the comment Hale-Bopp is 2400 years.

Formula Used:

Accordingto law if rcometandrEarth are the mean distances of comet Hale-Bopp and Earth from the sun and Tcomet,TEarth represent their periods then we write

  ( r comet r Earth )3=( T comet, T Earth )2

Solve above equations for rcomet

  ( r comet r Earth )3=( T comet, T Earth )2

  (r cometr Earth)=( T comet, T Earth )2/3

  rcomet=rEarth( T comet, T Earth )2/3

Calculation:

Substitute 1 AUforrEarth,2400yforTcomet, andTEarth,

  rcomet,=(1AU)( ( 2400y ) ( 1y ))23=179AU

Conclusion: Therefore, the mean distance of comet Hale-Bopp from the sun is =179AU

b)

To determine

The farthest distance

b)

Expert Solution
Check Mark

Answer to Problem 65P

Solution: 357AU

Explanation of Solution

If the closest distance of the comet Hale-Bopp from the sun is rmin farthest distance rmax then the expression for mean distance rconstant can be written as follows

  rconstant=r min+r max2solveaboveequationforrmax

  rconstant=rmin+rmax2

  rmax=2rconstantrmin=2(179)1=357AU

Conclusion:

The farthest distance is 357AU .

c)

To determine

The ratio speed at the point to the speed at the farthest point

c)

Expert Solution
Check Mark

Answer to Problem 65P

Solution: 3571

Explanation of Solution

Formula Used:

  12(v maxΔt)vmin=12(v minΔt)rmaxv maxv min=r maxr min

Calculation:

Substitute 357AUforrmax,and1AUforrmin

  v maxv min=357AU1AU=3571

Conclusion: Therefore, the ratio of the speed of the planet at the closest point to the farthest point 3571 .

Chapter 5 Solutions

Physics: Principles with Applications

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