1.) Luke Skywalker is running to fight Darth Vader, but slips on a patch of ice as he stops to draw his lightsaber (he’s on the planet Hoth). If he is running at 4 m/s, and decelerates at -2 m/s^2, then how far has he skidded on the patch of ice when he finally stops? and how long does that take?
2.) A shot putter releases the shot at 40° with respect to horizontal at a velocity of 13.3 m/s. If the release point is 2.2m above the ground, how far does the shot travel?
3.) Lisa punts a football with an initial resultant velocity of 18.0 m/s at an angle of 48° w.r.t. horizontal. The ball leaves the foot 0.8 m off of the ground. What will the vertical position of the ball be after 1.5 seconds?
1.) Luke Skywalker is running to fight Darth Vader, but slips on a patch of ice...
Can you help with these two?
Ask Your Teacher 6 1 points KatzPSEf1 2.P.047 My Notes + A uniformly accelerating rocket is found to have a velocity of 13.0 m/s when its height is 7.00 m above the ground, and 1.90 s later the rocket is at a height of 55.0 m. What is the magnitude of its acceleration? m/s2 Need Help? Read It Show My Work (optional) +-12 points KatzPSEf1 2.P.061 My Notes +Ask Your T In the movie...
1. A train at a constant 62.0 km/h moves east for 32.0 min, then in a direction 46.0° east of due north for 29.0 min, and then west for 42.0 min. What are the (a) magnitude and (b) angle (relative to east) of its average velocity during this trip? 2. A cart is propelled over an XX plane with acceleration components ax 5.5 m/s2 and ay = -2.3 m/s. Its initial velocity has components vox = 9.3 m/s and voy...
Problem number 8,14,&20.
11. A softball player hits the ball and starts running toward first 21. I Which of the following moti base. Draw a motion diagram, using the particle model, show- ing her velocity vectors during the first few seconds of her run. diagram of Figure Q1.21? A. An ice skater gliding acros B. An airplane braking to a s C. A ear pulling away from a D. A pool ball bouncing off 12. A child is sledding on...
Instructions for PHY 2048 Problem Set (PSET): (1) Please NEATLY write your name and your solutions. (2) You must use blank 8"x11" printer paper. (3) Begin each problem on a new page, and put your name on each page. Staple your pages together. 4) Only write on one side of the page. (5) You must write up your solutions independently (i.e. don't copy anyone else's solutions), using your own words and thought process. You must show all of your work....