Calculating the mass of a comet using the impact method

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The discussion focuses on calculating the mass of Comet Tempel 1 using the impact method, specifically through the concept of escape velocity. The initial problem involves determining the mass based on the escape speed of debris ejected from the comet after an impact. Participants discuss the formula for escape velocity and its relation to gravitational attraction, leading to a calculation that yields a mass of approximately 3.37 x 10^13 kg. The second part of the problem, concerning the distance from the comet's center when debris has lost 70% of its initial kinetic energy, remains unresolved, with users seeking further clarification and assistance. The conversation highlights the challenges of applying theoretical concepts to practical problems in astrophysics.
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[SOLVED] Mass of a comet problem

On July 4, 2005, the NASA spacecraft Deep Impact fired a projectile onto the surface of Comet Tempel 1. This comet is about 9.0 {\rm km} across. Observations of surface debris released by the impact showed that dust with a speed as low as 1.0 {\rm m/s} was able to escape the comet.

1)Assuming a spherical shape, what is the mass of this comet? ( The escape speed for an object at the surface of Earth is 11.2 {\rm km/s} ).

2)How far from the comet's center will this debris be when it has lost 70 {\rm \%} of its initial kinetic energy at the surface?

I have absolutely no idea what to do. any help would be appreciated.
 
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and here is the link if you are confused.

http://session.masteringphysics.com/myct/problemWork?template=problemView&assignmentProblemID=2736711
 
Last edited by a moderator:
Thread moved to Homework Help forums. Joe, start by telling us about the term "escape velocity", and how it relates to gravitational attraction.
 
the only thing i know is that the escape velocity for the Earth is equal to the square root of (G*mass of earth/radius of earth). our teacher really doesn't explain anything.
 
maybe i could use that and compare it to the escape velocity of the comet somehow but i don't know how. its just a really confusing problem because not much is explained.
 
Here's a reference on escape velocity. This should give you all that you need to solve the question. Read through this, and then post your work here if you still need help.

http://en.wikipedia.org/wiki/Escape_velocity
 
ok. solving for M =v^2*r/(2G) and plugging in i got 3.37 x 10^13. does that sound about right?
 
What are your units? What did you get for part B) ?
 
my units are in kg.
 
  • #10
thanks i got it.
 
  • #11
bump, I have no idea how to get part b
 
  • #12
treverd said:
bump, I have no idea how to get part b

What did you get for the answer for the first part? What can you tell us about the relationship between KE, PE, and total energy?
 

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