tatus for ew atus mpleted mpleted ompleted ompleted completed ompleted Completed artial Completed Completed Completed Completed Completed Completed Completed Tent! Forces and Motion Begin Date: 9/20/2020 12:01:00 AM - Due Date: 2/4/2024 11:59:00 PM End Date: 3/28/2025 11:59:00 PM (3%) Problem 23: A golf ball is hit from ground level on a horizontal fairway the initial velocity Vo = vo.xi + voy Completed Completed Completed Completed Completed Partial = (18.7 m/s)i + (6.5 m/s)Ĵ Throughout its trajectory, the golf ball encounters a strong wind which causes the ball to experience an acceleration in the horizontal direction with a magnitude of 2.08 m/s². A Cartesian coordinate system with the origin at the ball's initial position is shown in the figure. DA 25% Part (a) Calculate the maximum height, max, in meters, that the ball achieves. hmax = || m cos() asin() sin() cotan() atan() acotan() tanh() cosh() O Degrees Submit tan() acos() sinh() cotanh()) Radians. Hint П () 7 8 9 E A 4 5 6 1 2 3 1 + 0 VO BACKSPACE * Feedback ing - DEL Vo 2 HOME END CLEAR I give up! Feedback: 0% deduction per feedback. 0 T wind IN JAW Hints: 0% deduction per hint. Hints remaining: 8 A 25% Part (b) How long, in seconds, is the ball in the air before it returns to the ground? A 25% Part (c) Describe the ball's horizontal position as a function of time, x(t), in terms of time, t, the initial velocity components, Vox and voy, the acceleration due to the wind, awind, and the acceleration due to gravity, g. This function is valid for the duration of the ball's time in the air. 25% Part (d) Calculate the horizontal distance, Xmax, in meters, the ball travels before it returns to ground level.
tatus for ew atus mpleted mpleted ompleted ompleted completed ompleted Completed artial Completed Completed Completed Completed Completed Completed Completed Tent! Forces and Motion Begin Date: 9/20/2020 12:01:00 AM - Due Date: 2/4/2024 11:59:00 PM End Date: 3/28/2025 11:59:00 PM (3%) Problem 23: A golf ball is hit from ground level on a horizontal fairway the initial velocity Vo = vo.xi + voy Completed Completed Completed Completed Completed Partial = (18.7 m/s)i + (6.5 m/s)Ĵ Throughout its trajectory, the golf ball encounters a strong wind which causes the ball to experience an acceleration in the horizontal direction with a magnitude of 2.08 m/s². A Cartesian coordinate system with the origin at the ball's initial position is shown in the figure. DA 25% Part (a) Calculate the maximum height, max, in meters, that the ball achieves. hmax = || m cos() asin() sin() cotan() atan() acotan() tanh() cosh() O Degrees Submit tan() acos() sinh() cotanh()) Radians. Hint П () 7 8 9 E A 4 5 6 1 2 3 1 + 0 VO BACKSPACE * Feedback ing - DEL Vo 2 HOME END CLEAR I give up! Feedback: 0% deduction per feedback. 0 T wind IN JAW Hints: 0% deduction per hint. Hints remaining: 8 A 25% Part (b) How long, in seconds, is the ball in the air before it returns to the ground? A 25% Part (c) Describe the ball's horizontal position as a function of time, x(t), in terms of time, t, the initial velocity components, Vox and voy, the acceleration due to the wind, awind, and the acceleration due to gravity, g. This function is valid for the duration of the ball's time in the air. 25% Part (d) Calculate the horizontal distance, Xmax, in meters, the ball travels before it returns to ground level.
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN:9781305116399
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter4: Motion In Two Dimensions
Section: Chapter Questions
Problem 4.13OQ: In which of the following situations is the moving object appropriately modeled as a projectile?...
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A golf ball is hit from ground level on a horizontal fairway the initial velocity
Throughout its trajectory, the golf ball encounters a strong wind which causes the ball to experience an acceleration in the horizontal direction with a magnitude of 2.08m/s22.08m/s2. A Cartesian coordinate system with the origin at the ball's initial position is shown in the figure.
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