Alright Dude, If that worked for you... dont forget to give THUMBS UP.(that will work for me!)
If I missed something feel free to leave a comment.
atleast before giving downvote.
and, Thanks for using homeworklib- Smarter way to study.
A hockey puck of mass 0.16 kg, sliding on a nearly frictionless surface of ice with...
A hockey puck with mass 0.160 kg is at rest on the horizontal, frictionless surface of a rink. A player applies a force of 0.200 N to the puck, parallel to the surface of the ice, and continues to apply this force for 1.40 s. Part A What is the position of the puck at the end of that time? Part B What is the speed of the puck at the end of that time?
A hockey puck of mass 0.39 kg is shot west at 2.90 m/s strikes a second puck, initially at rest, of mass 0.55 kg. As a result of the collision, the first puck is deflected at an angle of 33° south of west, with a speed of 1.45 m/s. What is the speed of the second puck after the collision?
Hockey puck B rests on a smooth ice surface and is struck by a second puck A, which has the same mass. Puck A is initially traveling at 15.8 m/s and is deflected 20.0 ∘ from its initial direction. Assume that the collision is perfectly elastic. A) Find the final speed of the puck B after the collision. B) Find the final speed of the puck A after the collision. C) Find the direction of B's velocity after the collision.
Hockey puck B rests on a smooth ice surface and is struck by a second puck A, which has the same mass. Puck A is initially traveling at 16.0m/s and is deflected 25.0 degrees from its initial direction. Assume that the collision is perfectly elastic. a) Find the final speed of puck b after the collision. b) Find the final speed of puck a after the collision. c) Find the direction of b's velocity after the collision
A hockey puck with mass 0.160 kg is at rest on the horizontal, frictionless surface of a rink. A player applies a force of 0.250 {rm N} to the puck, parallel to thesurface of the ice, and continues to apply this force for 2.00 N. What is the speed of the puck at the end of that time?
A hockey puck (1) of mass 180 g is shot east at a speed of 8.80 m/s. It strikes a second puck (2), initially at rest, of mass 198 g. As a result of the collision, the first puck (1) is deflected at an angle of 30° south of east and the second puck (2) moves at an angle of 50° north of east. What is the magnitude of the velocity of puck (1) after the collision? m/s
Problem 3 (25 pts) A hockey puck B (400.0 g) is initially at rest on a frictionless, level ice and is struck by a second puck A (300.0 g), which was originally traveling at 8.00 m/s. Puck B acquires a velocity of 4.00 m/s at a 40.0° angle to the original velocity of A as in the diagram. Compute the velocity, magnitude and direction, of A after the collision. 8 m/s A A 40 4.00 m/s
A hockey puck (1) of mass 170 g is shot west at a speed of 6.60 m/s. It strikes a second puck (2), initially at rest, of mass 195 g. As a result of the collision, the first puck (1) is deflected at an angle of 62° north of west and the second puck (2) moves at an angle of 50° south of west. What is the magnitude of the velocity of puck (1) after the collision?
A hockey puck (1) of mass 120 g is shot east at a speed of 8.80 m/s. It strikes a second puck (2), initially at rest, of mass 138 g. As a result of the collision, the first puck (1) is deflected at an angle of 46° south of east and the second puck (2) moves at an angle of 40° north of east. What is the magnitude of the velocity of puck (1) after the collision?
8. A hockey puck (1) of mass 140 g is shot west at a speed of 8.20 m/s. It strikes a second puck (2), initially at rest, of mass 161 g. As a result of the collision, the first puck (1) is deflected at an angle of 48° south of west and the second puck (2) moves at an angle of 46° north of west. What is the magnitude of the velocity of puck (1) after the collision?
> Velocity 1 is N31E, not E31N. Meaning angle theta is 31 degrees away from north towards east. Not 31 away from east to north.
Gavin Yan Sun, Dec 5, 2021 12:23 PM