Opera File Edit View History Bookmarks Developer Window Help G Q Sun Jun 12 1:09 PM . . . M Mathway | Physics Problem Current Students | Delaware P1 PingOne Content oPhysics Bb 3077476 Bb 2074796 + C 8: | ophysics.com/e2.html Momentum & Energy: Elastic and Inelastic Collisions Animation Speed Run slower faster Pause Elasticity (enter a number between 0 and 1) 1 Reset perfectly elastic Vred Vblue VCOM Initial KE red = 90 J Show Energy & Momentum Values al KE blue = 96 J Initial p red = 30 kgm/s Initial p blue = -24 kgm/s Velocity of red box = 6 m/s Velocity of blue box = -8 m/s p COM Pred Pblue Ep (+) Positive Direction Show Center of Mass Initial velocity of red box (m/s) =6 Initial velocity of blue box (m/s) =-8 Relative velocity initial = 14 (towards) Mass of red box (kg) = 5 Show Relative Velocity Mass of blue box (kg) = 3 Description This is a simulation of a collision in one dimension between two masses initially sliding toward each other on a frictionless surface. Explore conservation of energy and momentum, as well as elasticity and relative velocity. Adjust the initial velocities, masses of the boxes, and elasticity with the sliders. Use the buttons to run, pause, and reset the simulation 12Opera File Edit View History Bookmarks Developer Window Help G Q Sun Jun 12 1:10 PM . . . Mathway | Physics Problem Current Students | Delaware P1 PingOne Content oPhysics Bb 3077476 Bb 2074796 + Q C : ophysics.com/e2.html Momentum & Energy: Elastic and Inelastic Collisions Animation Speed C Run slower faster v Pause Elasticity (enter a number between 0 and 1) 1 Reset perfectly elastic Vred Vblue V COM Initial KE red = 90 J Show Energy & Momentum Values Initial KE blue = 96 J Initial p red = 30 kgm/s Initial p blue = -24 kgm/s Velocity of red box = -4.5 m/s Velocity of blue box = 9.5 m/s Final p red = -22.5 kgm/s Final p blue = 28.5 kgm/s Final KE red = 50.625 J Final KE blue = 135.375 J COM Pred Pblue Ep Kinetic energy converted to other forms during the collision = 0 J (+) Positive Direction Show Center of Mass Initial velocity of red box (m/s) =6 Initial velocity of blue box (m/s) =-8 Relative velocity initial = 14 (towards) Relative velocity final = 14 (away) Mass of red box (kg) = 5 Show Relative Velocity Mass of blue box (kg) = 3 Description This is a simulation of a collision in one dimension between two masses initially sliding toward each other on a frictionless surface. Explore conservation of energy and momentum, as well as elasticity and relative velocity. Adjust the initial velocities, masses of the boxes, and elasticity with the sliders. Use the buttons to run, pause, and reset the simulation 12Preview File Edit View Go Tools s Window Help G Q Sun Jun 12 6:59 PM . . . 8 IMG_8660.HEIC > > Q Blackboard Learn oPhysics Homework Help - Q&A from Or + sehero.com/tutors/homework-help/ Complete the following statement: A collision is elastic if A) the final velocities are zero. B) the objects stick together. C) the final kinetic energy is zero. the final momentum is zero. E the total kinetic energy is conserved. ork help O Use Video Lab Simulation to complete part 1, Elastic Collision. Set values of the mass and the initial velocity of the Red and Blue boxes as it entered in the table. Set "elasticity" equal 1. with a verified expert tutor 24/7 Ask a question Connect with Tutor works on Part 1.Elastic Collision P = MV KE = - MV 30 kym/s + (-24kym/s) = 6 and explanation in as few as 30 minutes Learn more an expert your question Hal KE Box Mass Velocity before Momentum Total Total KE kg collision, m/s before collision, momentum before kg(m/s before collision collision, J Show Center of Mass Red 30 kam/s 6 kam/S 186 J nitial velocity of red box (m/s) =( nitial velocity of blue box (m/s) =-8 - 24 kym/S Relative velocity initial = 14 (towards) 1965 Blue Relative velocity final = 14 (away) Calculate values of the "Momentum before collision" of the Red car, Blue car, "Total momentum before collision", "Total KE before collision". Show step-by-step calculations. Enter Mass of red box (kg) =5 Show Relative Velocity Mass of blue box (kg) =3 calculated values in the table. Description Run simulation. Collide the boxes and let the boxes continue to move after the collision for a This is a simulation of a collision in one dimension between two masses initially sliding toward each other on a frictionless surface. Explore conservation of energy and momentum, as well as elasticity and relative velocity. ittle. From simulation record the "Velocity after collision" of the Red and Blue boxes in the Adjust the initial velocities, masses of the boxes, and elasticity with the sliders. Use the buttons to run, pause, table. Calculate values of the "Momentum after collision" of the Red and Blue boxes, "Total and reset the simulation momentum after collision", "Total KE after collision". Show step-by-step calculations. Enter - - 22.5 kam/s + 28.5 kym/s = 6 kgm/ KE calculated values in the table. P z mu Box Mass, Velocity after Momentum after Total Total KE after kg collision, m/s collision, momentum collision, J kg(m/s after collision op images or Upload 25 5 -Red - 4.5 m/S -22. 5 kum/S 1375 J- Blue 3 9.5 mis 28.5 kem/s 6 Kam Is Make a photo of the screen (simulation) with values (before and after collision) and submit the photo with your assignment. How does the total momentum before an elastic collision compare to the total momentum after the collision? uding uploads), you represent and warrant that you comply with Course Hero's Terms of Service, Honor Code, and Copyright Policy. You may only naterials where you own the copyright or where the copyright owner consented to uploading their content. Read our copyright policy here. How does the total KE before an elastic collision compare to the total KE after the collision? st subject Irse 6 40 12