CensantsPartA Sam heaves a shot with weght 16-1b upnind giving it a constant upwand acoeteraion trom...
Chapter 2 roblem 2.73 10 of 12> Constants Sam heaves a shot with weight 16-lb straight upward, giving it a constant upward acceleration from rest of 34.7 m/s for a height 69.0 cm. He releases it at height 2.12 m above the ground. You may ignore air resistance. Correct Part B How high above the ground does it go? h4.56 m Correct Part C How much time does he have to get out of its way before it returns to...
Sam heaves a bowling ball with weight 16-lb straight upward, giving it a constant upward acceleration from rest of 44.3 m/s2 for a height 60.0 cm . He releases it at height 2.12 m above the ground. You may ignore air resistance. Answered A and B but stuck on C. Part A Part complete What is the speed of the bowling ball when he releases it? v=7.9m/s Part B Part complete How high above the ground does it go? h=4.83m...
Part c Chapter 2 Problem 2.73 Part A Constants Sam heaves a shct with weight 16-lb straight upward, giving it a constant upward acceleration from rest of 347 m/st for a height 69.0 cm. He releases it at height 2.12 m above the ground. You may ignore air resistance. What is the speed of the shot when he releases it? 6.92 m/s Previous Answers Correct Part B How high above the ground does it go? h 4.56 m Correct Part...
part A,B and C please Part A Constants What is the speed of the shot when he releases it? Sam heaves a shot with weight 16-lb straight upward, giving ita constant upward acceleration from rest of 42.8 m/s for a height 68.0 cm. He releases it at height 2.25 m above the ground. You may ignore air resistance. u= m/s Submit Part B How high above the ground does it go? Submit PartC How much time does he have to...
A bullet is shot through two cardboard disks attached a distance D apart to a shaft turning with a rotational period T, as shown. Derive a formula for the bullet speed u in terms of D, T, and a measured angle e between the position of the hole in the first disk and that of the hole in the second. If required, use r, not its numeric equivalent. Both of the holes lie at the same radial distance from the shaft....