Escape Velocity and Short-Distance Space Travel: Understanding the Science

AI Thread Summary
Escape velocity is the speed required for an object to break free from Earth's gravitational pull. While traveling to destinations like the Moon or Mars, achieving escape velocity ensures that the spacecraft does not fall back to Earth. Although full escape velocity (11.2 km/sec) isn't necessary for the Moon, a speed of around 9.76 km/sec is required to reach it, and matching the Moon's orbital velocity increases this to 10.76 km/sec. The concept of "infinite distance" helps simplify calculations in gravitational physics, as potential energy approaches zero at such distances. Understanding these velocities is crucial for successful space travel beyond Earth.
blackcat
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can someone please help:

i know escape velocity is the velocity you need to give an object for it exit the pull of the Earth and travel an infinite distance away from earth.

now let's say you have a space shuttle that you need to take to Mars or the moon or something. why would you need to give it the escape velocity when you're only going a few million kilometres and not anywhere near an "infinite distance" away?

so how does that make sense?
 
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ow let's say you have a space shuttle that you need to take to Mars or the moon or something. why would you need to give it the escape velocity when you're only going a few million kilometres and not anywhere near an "infinite distance" away?
It doesn't matter where/how far you are going. You just need that velocity to escape the gravitational attraction so it won't fall back down. From there is up to the space shuttle where to go.

Dont use "infinite distance away from earth", you'll confuse yourself. For simplicity sake, it should be finite distance.
 
thanks, but i still don't quite understand.

what will happen if you launch with escape velocity (and without propulsion). in wikipedia it says you'll get infinitely far away, but you say it doesn't matter.
 
blackcat said:
can someone please help:

i know escape velocity is the velocity you need to give an object for it exit the pull of the Earth and travel an infinite distance away from earth.

now let's say you have a space shuttle that you need to take to Mars or the moon or something. why would you need to give it the escape velocity when you're only going a few million kilometres and not anywhere near an "infinite distance" away?

so how does that make sense?

It turns out that you use up most of the escape velocity while you are still very close to the Earth. For instance, While you don't need to achieve full escape velocity (11.2 km/sec) to reach the distance of the Moon, you do need 9.76 km/sec. If you then also want to match the Moon's orbital velocity it jumps up to 10.76 km/sec. In just getting to the Moon you have to almost achieve escape velocity. Going much past the Moon means having to get even closer to escape velocity. After a point, you are having to come so close to escape velocity that the difference doesn't matter.
 
The "infinite distance" comes from the reasoning that the potential energy at an infinity is zero. This becomes useful when you get into the math
 
ok thanks for your help guys.
 

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