Calculating Gas Mass for Spacecraft Course Change

AI Thread Summary
To calculate the mass of gas needed for a spacecraft to change its course by 30 degrees, one must first establish the velocity vector components. The initial velocity of the probe is 120 m/s, and the desired change requires a specific y-component to achieve the angle. Using conservation of momentum principles, the required mass of gas expelled can be determined based on the gas's exit speed of 3200 m/s. The discussion highlights the importance of vector analysis and momentum conservation in solving the problem. Ultimately, the approach leads to a solution for the mass of gas needed for the maneuver.
rubrboots
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Hello

I can't solve this one, can anyone steer me in the right direction.

A 7600-kg space probe is traveling through space at 120 m/s. Mission control determines that a change in course of 30.0° is necessary and instructs the probe to fire rockets perpendicular to its present direction of motion. If the escaping gas leaves the crafts rockets at an average speed of 3200 m/s, what mass of gas should be expelled?

Thanx
 
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rubrboots said:
Hello

I can't solve this one, can anyone steer me in the right direction.

A 7600-kg space probe is traveling through space at 120 m/s. Mission control determines that a change in course of 30.0° is necessary and instructs the probe to fire rockets perpendicular to its present direction of motion. If the escaping gas leaves the crafts rockets at an average speed of 3200 m/s, what mass of gas should be expelled?

Thanx
Assume that the initial direction is along the positive x axis.
Construct a velocity vector that is directed 30 degrees above the x axis.
What y component do you need to get that angle?

Now use conservation of momentum to figure out how much mass of gas must be expelled so that you get the y component that you need.

Pat
 
Thanx nrqed, I think I have it now.
 
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