15 part A,B,C

Part A Three objects A, B, and C are moving as shown in (Figure 1). Assume that vA = 11.2 m/S , UB = Find the r component of the net momentum of the particles if we define the system to consist of A and C. 10.0 m/s , and vc = 3.80 m/s . Express your answer in kilogram-meters per second. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Preliminary analysis of a collision 0 ? Px = -2.60 kg . m/s Submit Previous Answers Request Answer * Incorrect; Try Again; 19 attempts remaining Part B Find the y component of the net momentum of the particles if we define the system to consist of A and C. Express your answer in kilogram-meters per second AEd ACE ? Dy kg . m/s Submit Request Answer Figure Part C Find the x component of the net momentum of the particles if we define the system to consist of B and C. Express your answer in kilogram-meters per second. A 5.0 kg B/60 AEd FOE ? 6.0 ke 10.0 kg Px kg . m/sPart D Three objects A, B, and C are moving as shown in (Figure 1). Assume that vA = 11.2 m/s , UB = Find the y component of the net momentum of the particles if we define the system to consist of B and C. = 3.80 m/s . Express your answer in kilogram-meters per second For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Preliminary analysis of a collision. AEd Py - 2.60 kg . m/s Submit Previous Answers Request Answer * Incorrect; Try Again; 19 attempts remaining Part E Find the r component of the net momentum of the particles if we define the system to consist of all three objects. Express your answer in kilogram-meters per second to two significant figures. IVO AEd FOE ? kg . m/s Submit Request Answer Figure Part F Find the y component of the net momentum of the particles if we define the system to consist of all three objects. Express your answer in kilogram-meters per second to two significant figures. A 5.0 kg of 6.0 kg 10.0 kg Py kg . m/sPart A Two figure skaters, one weighing 675 N and the other 725 N, push off against each other on very smooth ice. If the heavier skater travels at 1.50 m/s, how fast will the lighter one travel? Express your answer in meters per second. v = 1.61 m/s Submit Previous Answers Correct Part B How much kinetic energy is "created" during the skaters' maneuver? Express your answer in joules. AEd ? K = 12491.63 Submit Previous Answers Request Answer X Incorrect; Try Again; 17 attempts remaining Provide FeedbackPart A On a frictionless air track, a 0.130 kg glider moving at 1.00 m/s to the right collides with and sticks to a stationary 0.225 Kg glider. What is the net momentum of this two-glider system before the collision? Use coordinates where +I is in the direction of the initial motion of the lighter glider. Express your answer in kilogram-meters per second Pix = 0.180 kg - m/s Submit Previous Answers Request Answer * Incorrect; Try Again; 19 attempts remaining Part B What must be the net momentum of this system after the collision? Express your answer in kilogram-meters per second IVO 0.180 kg . m/s Submit Previous Answers Request Answer * Incorrect; Try Again; 19 attempts remaining Part C Use your answers in Parts A and B to find the speed of the gliders after the collision. Express your answer in meters per second. IVO ? 1 = 0.450 m/sPart A On an air track, a 390.0 g glider moving to the right at 2.00 m/'s collides elastically with a 502.5 g glider moving in the opposite direction at 2.85 m/s. Find the velocity of first glider after the collision. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Express your answer in meters per second. Elastic collision on an air track. 1VO In/s to the left. Submit Request Answer Part B Find the velocity of second glider after the collision. Express your answer in meters per second. AEp m/s to the right. Submit Request