In the figure here, a ball is thrown up onto a roof, landing 3.30 s later at height h = 20.0 m above the release level. The ball's path just before landing is angled at 0 = 58.0° with the roof. (a) Find the horizontal distance d it travels. (Hint: One way is to reverse the motion as if it is on a video.) What are the (b) magnitude and (c) angle (relative to the horizontal) of the ball's initial velocity?

In the figure here, a ball is thrown up onto a roof, landing 3.30 s later at height h = 20.0 m above the release level. The ball's path just before landing is angled at 0 = 58.0° with the roof. (a) Find the horizontal distance d it travels. (Hint: One way is to reverse the motion as if it is on a video.) What are the (b) magnitude and (c) angle (relative to the horizontal) of the ball's initial velocity?

Name: (2) 3RD SIG. DIGIT PLS This answer has no unitsdegreesmkgm/sm/s^2NJWN/
Uploaded: 2024-03-20T06:57:47.000Z
Channel: Bartleby
Description: (2) 3RD SIG. DIGIT PLS This answer has no unitsdegreesmkgm/sm/s^2NJWN/mkg•m/sPakg/m^3m/s^3times In the figure here, a ball is thrown up onto a roof, landing 3.30 slater at height h = 20.0 m above the release level. The ball's path justbefore landing

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter4: Motion In Two And Three Dimensions

Section: Chapter Questions

Problem 57P: In 1999, Robbie Knievel was the first to jump the Grand Canyon on a motorcycle. At a narrow part of...

See similar textbooks

Similar questions

Inthe figure here, a ball is thrown up onto a roof, landing 4.90 s later at height h = 21.0 mabove the release level. The ball's path just before landing is angled at 8 = 51.0° with the roof. (a) Find the horizontal distance d it travels. (Hint One way is to reverse the motion, as ifitis on a video.) What are the (b) magnitude and (c) angle (relative to the horizontal) of the ball's initial velocity? (a) Number Unit (b) Number Unit (c) Number Unit > >
In the figure here, a ball is thrown up onto a roof, landing 4.50 s later at height h = 21.0 mabove the release level. The ball's path just before landing is angled at 8= 57.0' with the roof. (a) Find the horizontal distance d it travels. (Hint One way is to reverse the motion, as ifit is on a video.) What are the (b) magnitude and (c) angle (relative to the horizontal) of the ball's initial velocity? 0000 1000 (a) Number Unit (b) Number Unit (c) Number Unit > > >
the court is the tennis ball when it leaves the racket? Ans: 1.83 m SUL des Bud Question 3. A marble is thrown horizontally with a speed of 19.2 m/s from the top of a building. When it strikes the ground, the marble has a velocity that makes an angle of 39° with the horizontal. From what height above the ground was the marble thrown? Ans: 12.33 m lage vob Y Question 4. A horizontal rifle is fired at a bull's-eye. The muzzle speed of the bullet is 640 the hullot strikes the target.
A tennis player hits the tennis ball at a distance of 10 m from the net. The ball is hitat a height of 1.2 m above ground so that it starts moving with a velocity of 30 m/s ina horizontal direction (parallel to the ground). The height of the net is 90 cm. What is the angle the tennis player has to hit the ball so it will just clear thenet?
A lizard kicks a ball with an initial velocity of 10 m/s at an angle of 35º with the horizontal. What is the maximum height of the ball?
A baseball batter hits a long fly ball, giving it an initial velocity 45.0° above the horizontal. The ball risesto a maximum height of 14.8 m. An outfielder on the opposing team starts running at 7.60 m/s the instantthe ball is hit. Calculate the farthest the fielder can be from where the ball will land so that it is possiblefor him to catch the ball, i.e. distance between fielder’s original position and lading of the ball
A baseball batter hits a long fly ball, giving it an initial velocity 45.0° above the horizontal. The ball risesto a maximum height of 14.8 m. An outfielder on the opposing team starts running at 7.60 m/s the instantthe ball is hit. Calculate the farthest the fielder can be from where the ball will land so that it is possiblefor him to catch the ball, i.e. distance between fielder’s original position and lading of the ball. [HINT: Assume that the outfielder catches the ball at the same height at which it was hit, and that hebegins running at the same time that it was hit.]
In the figure here, a ball is thrown up onto a roof, landing 3.60 s later at heighth-20.0 m above the release level. The ball's path just before landing is angled at 0-65.0' with the roof. (a) Find the horizontal distance d it travels. (Hint: One way is to reverse the motion, as if it is on a video.) What are the (b) magnitude and (c) angle (relative to the horizontal) of the ball's initial velocity? (a) Number Unit (b) Number 1 Unit (c) Number 1 Unit Activat Go to Se
A cannonball is shot with an initial speed of 30.0 m/s and 25.0º angle above horizontal from a height of 12.0 m. How far can the cannonball go horizontally when it lands on the ground, in meters? Use g = 10.0 m/s2. (Hint: Clearly label quantities along x- and y- components and write down all steps.) inknow the answer is 89 but I need the steps
An athlete in a long jump trial leaves the ground at an 80o angle and covers a horizontal distance of 8.7 m. The speed with which he can jump remains constant. What should he do to increase the horizontal distance of his jump? Explain why this would work.
You are attacking your enemy’s castle and prepare your catapult to launch a large stone at the castle wall. Asyour clan’s engineer, it is up to you to calculate the correct distance from the wall to fire your catapult. Youknow that the projectile will be launched from the catapult 8.2 m above the ground at a velocity of 40 m/s atan angle of 46◦ above the horizontal, and you want to hit the castle wall 3.0 m above the ground, where theprojectile will do the most damage. How far from the wall should your catapult be positioned?
Qs The ball was thrown with a speed (1, = 35 m/sec) and directed at an angle (6= 30°)with the horizontal. Determine the distance R where the ball hits the slope at B.