ZuoTi.Pro
Question

A spaceship of mass 2.2×106 kg is cruising at a speed of 5.6×106 m/s when the...

A spaceship of mass 2.2×106 kg is cruising at a speed of 5.6×106 m/s when the antimatter reactor fails, blowing the ship into three pieces. One section, having a mass of 5.1×105 kg , is blown straight backward with a speed of 1.8×106 m/s . A second piece, with mass 7.6×105 kg , continues forward at 1.3×106 m/s . What is the speed of the third piece?

science   physics   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

0 0
Add a comment
Know the answer?
Add Answer to:
A spaceship of mass 2.2×106 kg is cruising at a speed of 5.6×106 m/s when the...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • A spaceship of mass 2.3×106 kg is cruising at a speed of 6.0×106 m/s when the antimatter reactor fails, blowing the ship...

    A spaceship of mass 2.3×106 kg is cruising at a speed of 6.0×106 m/s when the antimatter reactor fails, blowing the ship into three pieces. One section, having a mass of 4.7×105 kg , is blown straight backward with a speed of 2.2×106 m/s . A second piece, with mass 7.9×105 kg , continues forward at 1.3×106 m/s .

  • A spaceship of mass 2.0×106 kg is cruising at a speed of 4.9×106 m/s when the...

    A spaceship of mass 2.0×106 kg is cruising at a speed of 4.9×106 m/s when the antimatter reactor fails, blowing the ship into three pieces. One section, having a mass of 4.6×105 kg , is blown straight backward with a speed of 2.1×106 m/s . A second piece, with mass 8.2×105 kg , continues forward at 1.3×106 m/s . What is the speed of the third piece?

  • A spaceship of mass 1.90×106 kg is cruising at a speed of 4.60×106 m/s when the...

    A spaceship of mass 1.90×106 kg is cruising at a speed of 4.60×106 m/s when the antimatter reactor fails, blowing the ship into three pieces. One section, having a mass of 4.60×105 kg , is blown straight backward with a speed of 2.30×106 m/s . A second piece, with mass 8.20×105 kg , continues forward at 1.20×106 m/s . What is the speed of the third piece?

  • Problem: A spaceship of mass 1.9×106 kg is cruising at a speed of 6.0×106 m/s when...

    Problem: A spaceship of mass 1.9×106 kg is cruising at a speed of 6.0×106 m/s when the antimatter reactor fails, blowing the ship into three pieces. The first piece, having a mass of 4.9×105 kg , is blown straight backward with a speed of 2.5×106 m/s . A second piece, with mass 7.5×105 kg , continues forward at 1.0×106 m/s. Q: What is the speed of the third piece?

  • Review Constants 1 Periodic Part A A spaceship of mass 2.0x10 kg is cruising at a...

    Review Constants 1 Periodic Part A A spaceship of mass 2.0x10 kg is cruising at a speed of 4.1x10 m/s when the antimatter reactor fails, blowing the ship into three pieces. The first piece, having a mass of 5.0x10kgis blown straight backward with a speed of 2.1x10 m/s. A second piece, with mass 8.5x10 kg. continues forward at 1.1x10 m/s What is the speed of the third piece? Express your answer using three significant figures and include the appropriate units....

  • A spaceship of mass 2.70 106 kg is to be accelerated to a speed of 0.695c....

    A spaceship of mass 2.70 106 kg is to be accelerated to a speed of 0.695c. (a) What minimum amount of energy does this acceleration require from the spaceship's fuel, assuming perfect efficiency? J (b) How much fuel would it take to provide this much energy if all the rest energy of the fuel could be transformed to kinetic energy of the spaceship? kg

  • A spaceship with a mass of 5.50 104 kg is traveling at 6.16 103 m/s relative...

    A spaceship with a mass of 5.50 104 kg is traveling at 6.16 103 m/s relative to a space station. What mass will the ship have after it fires its engines in order to reach a speed of 7.78 103 m/s? Assume an exhaust velocity of 4.69 103 m/s.

  • An object with total mass mtotal = 16.1 kg is sitting at rest when it explodes...

    An object with total mass mtotal = 16.1 kg is sitting at rest when it explodes into three pieces. One piece with mass m1 = 4.6 kg moves up and to the left at an angle of θ1 = 22° above the –x axis with a speed of v1 = 25 m/s. A second piece with mass m2 = 5.1 kg moves down and to the right an angle of θ2 = 27° to the right of the -y axis...

  • A moving object A of mass 8.7 kg and speed 2.2 m/s collides with a stationary...

    A moving object A of mass 8.7 kg and speed 2.2 m/s collides with a stationary object B of mass 9.4 kg. The collision is totally inelastic. Calculate the speed of the combined object after collision.

  • 1. A Vulcan spaceship has a mass of 6.50 × 104 kg and a Romulan spaceship...

    1. A Vulcan spaceship has a mass of 6.50 × 104 kg and a Romulan spaceship is twice as massive. Both have engines that generate the same total force of 9.50 × 106 N. If each spaceship fires its engine for the same amount of time, starting from rest and ignoring any change in mass due to whatever is expelled by the engines, calculate the energy of the Vulcan spaceship if the engines are fired for 103 s. 2. A...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT