Calculate Momentum & Energy for 15 Metric Ton Train

AI Thread Summary
A 15 metric ton train moving at 70 m/s has an initial momentum of 1,005,000 Ns. To achieve five times its original momentum, it must travel at 350 m/s. For a momentum of 5 × 10^5 kg·m/s, the required speed is 33.3 m/s. To reduce the train's speed to 10 m/s while maintaining the same momentum of 5 × 10^5 Ns, an additional mass of 35,000 kg must be added, resulting in a total weight of 50,000 kg. The calculations clarify the relationship between mass, speed, and momentum for the train.
Ronaldo21
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part (1 of 3 ). A 15 metric ton train moves toward the south at 70 m/s.
At what speed must it travel to have five times its original momentum? A metric ton
is 1000 kg.
Answer in units of m/s.

and

Part (2 of 3 ). At what speed must it travel to have a momentum of 5 × 105 kg · m/s?
Answer in units of m/s.

and

Part (3 of 3). If there were a speed limit for this train as it traveled through a city, but not a weight limit, what mass must be added to the train to slow it down to 10 m/s while at the same time keeping the momentum the same as in the second part?
Answer in units of kg.

THANK YOU!
 
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Part 1: p = mv

So pi= 15000kg*70m/s = 1,005,000 Ns

pf = 5*pi = 5,250,000 Ns

Since we can't change the train's mass, we have to change its speed: 5,250,000 = 15000*v, v= 350 m/s
 
Part 2: 5 x 10^5kg*m/s

So if p = mv, then 5x10^5kg*m/s = 15000*v

so v = 33.3 m/s
 
Part 3:
so
p = 5 x 10^5 Ns
v = 10 m/s

p = mv, m = p/v; m = 50000kg final weight. Train starts out at 15000kg, so you must add 35000kg to have a total weight of 50000kg
 
wow! thank you soo much! this makes so much more sense now!
 
sure thing!
 

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