Recent content by Vraj Patel

  1. V

    Complex Kinematics and Dynamics

    I tried to upload a photo of my diagram but it wouldn't let me, but the pucks are heading toward each other.
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    Complex Kinematics and Dynamics

    d represents distance.
  3. V

    Complex Kinematics and Dynamics

    Homework Statement Two pucks (5 kg each) made of Teflon are on a long table, also made of Teflon. Puck A is sitting at rest on the left end of the table. Puck B is 15 m away at the right hand end of the table, and is travelling toward Puck A with an initial speed of 0.5 m/s. A person on the...
  4. V

    Complex Kinematics and Dynamics

    I typed out all the steps I used.
  5. V

    Complex Kinematics and Dynamics

    I uploaded the photos from a local source, so you should be able to see my work. Thank you for taking the time to help me.
  6. V

    Complex Kinematics and Dynamics

    I uploaded the photos from a local source, so you should be able to see my work. Thank you for taking the time to help me.
  7. V

    Complex Kinematics and Dynamics

    Homework Statement Two pucks (5 kg each) made of Teflon are on a long table, also made of Teflon. Puck A is sitting at rest on the left end of the table. Puck B is 15 m away at the right hand end of the table, and is travelling toward Puck A with an initial speed of 0.5 m/s. A person on the...
  8. V

    An object of some mass, m, is accelerated upwards....

    I am sorry for using your time, but my teacher made a typo, and I figured out the problem.
  9. V

    An object of some mass, m, is accelerated upwards....

    would you like me to plug it into the FG = (1.6x10^15) x (m/x^2t^4) formula.
  10. V

    An object of some mass, m, is accelerated upwards....

    This is question I have been stuck on, in my weekly assignment. May you explain the part of the problem that doesn't make sense.
  11. V

    An object of some mass, m, is accelerated upwards....

    Homework Statement an object of some mass, m, is accelerated upwards (from rest) off the surface off the Earth for some unknown time, t. At the end of this time, the object is traveling at some new speed, x. Derive the following formula. That is, show that no matter how much time the rocket...
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