In a softball windmill pitch, the pitcher rotates her arm through just over half a circle, bringing the ball from a point above her shoulder and slightly forward to a release point below her shoulder and slightly forward. (Figure 1) shows smoothed data for the angular velocity of the upper arm of a college softball pitcher doing a windmill pitch; at time t = 0 her arm is vertical and already in motion. For the first 0.15 s there is a steady increase in speed, leading to a final push with a greater acceleration during the final 0.05 s before the release. In each part of the problem, determine the corresponding quantity during the first 0.15 s of the pitch. Part A What is the angular acceleration? Express your answer in radians per second squared. 1971 ΑΣΦ 3 a = Part B a = If the ball is 0.60 m from her shoulder, what is the tangential acceleration of the ball? This is the key quantity here--it's a measure of how much the ba m/s² and in units of g. Enter your answers in meters per second squared and in units of g separated by a comma. Part C 195] ΑΣΦ 1 Through what angle does her arm rotate? Express your answer in radians. Δθ = g—| ΑΣΦ ? 3 ? rad/s² ? m/s².g rad

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In a softball windmill pitch, the pitcher rotates her arm through just over half a
circle, bringing the ball from a point above her shoulder and slightly forward to
a release point below her shoulder and slightly forward. (Figure 1) shows
smoothed data for the angular velocity of the upper arm of a college softball
pitcher doing a windmill pitch; at time t = 0 her arm is vertical and already in
motion. For the first 0.15 s there is a steady increase in speed, leading to a
final push with a greater acceleration during the final 0.05 s before the release.
In each part of the problem, determine the corresponding quantity during the
first 0.15 s of the pitch.
Part A
What is the angular acceleration?
Express your answer in radians per second squared.
α =
Part B
at =
Part C
IVE ΑΣΦ
If the ball is 0.60 m from her shoulder, what is the tangential acceleration of the ball? This is the key quantity here--it's a measure of how much the ball
m/s² and in units of g.
Enter your answers in meters per second squared and in units of g separated by a comma.
Δθ =
17 ΑΣΦ
Through what angle does her arm rotate?
Express your answer in radians.
-- ΑΣΦ
?
?
rad/s²
?
m/s², g
rad
Transcribed Image Text:In a softball windmill pitch, the pitcher rotates her arm through just over half a circle, bringing the ball from a point above her shoulder and slightly forward to a release point below her shoulder and slightly forward. (Figure 1) shows smoothed data for the angular velocity of the upper arm of a college softball pitcher doing a windmill pitch; at time t = 0 her arm is vertical and already in motion. For the first 0.15 s there is a steady increase in speed, leading to a final push with a greater acceleration during the final 0.05 s before the release. In each part of the problem, determine the corresponding quantity during the first 0.15 s of the pitch. Part A What is the angular acceleration? Express your answer in radians per second squared. α = Part B at = Part C IVE ΑΣΦ If the ball is 0.60 m from her shoulder, what is the tangential acceleration of the ball? This is the key quantity here--it's a measure of how much the ball m/s² and in units of g. Enter your answers in meters per second squared and in units of g separated by a comma. Δθ = 17 ΑΣΦ Through what angle does her arm rotate? Express your answer in radians. -- ΑΣΦ ? ? rad/s² ? m/s², g rad
Angular velocity (rad/s)
36-
24
12
0
0
0.05 0.10 0.15 0.20
Time (s)
Transcribed Image Text:Angular velocity (rad/s) 36- 24 12 0 0 0.05 0.10 0.15 0.20 Time (s)
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