Physics question I cannot figure out?

3 ANSWERS

1. 
   

   the first one I can help you answer only number two I am unsure of.
   
   For number one all you need to use is the: speed = distance/time formuale
   
   I don't have a calculator to hand but the calculation you would need to carry out would be:
   
   17500=Distance/*whatever 3.5 mins is of an hour* (you will need a calculator to work that out!)
   
   hope I helped!
   
   xxxxx

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2. 
   

   17500 mph = 7823 m/s
   
   5000 mph = 2235 m/s
   
   3.5 min = 210 sec
   
   Δv = at
   
   5588 = a*210
   
   a = 26.6 m/s²
   
   a in g's = 26.6 / 9.8 = 2.7 Gs
   
   for distance, I assume you want distance referenced to a spot on earth's surface.
   
   d = ½at² + v₀t
   
   d = -½(26.6)(210)² + 7823 *210
   
   d = - 586530 + 1642830 m
   
   d = 1056300 m or 656 miles
   
   If you want distance referenced to the original orbit, than the answer is 586530 meters.
   
   .

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3. 
   

   Supposed that the retro rocket exerts a constant retarding acceleration on the shuttle, the motion of the shuttle will be uniformly decelerated
   
   a = change in v / time = (17500 -5000) /3.5 mph/minute
   
   a = 12500 / 3.5*60 mile/minute/minute = 60 mile/minute/minute
   
   (1)
   
   (unit used: s in miles, t in minutes, and 'a' in mile/minute/minute)
   
   s = (1/2) at^2 = 30 t^2 = 30 * (3.5)^2 = 735 miles
   
   (2)
   
   Converting retro acceleration 'a' to SI unit to compare with acceleration due to gravity G = 9.8 m/s/s
   
   1 mile = 1,609 meters; 1 minute = 60 seconds
   
   a = 30 miles/minute/minute = (30 * 1,609 / 60 /60) m/s/s = 13.4 m/s/s
   
   Thus a/G = 13.4 / 9.8 = 1.4
   
   or a = 1.4 G
   
   

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