Use (g= -9.8 m/s/s) What was the average total time of your tossed directly into the air object? The average total time of my object tossed directly into the air object was 0.66 seconds. 2. What was the initial velocity of the object as it left the thrower's hand? (Use the image attached to solve this replacing the time with 0.66 seconds). 3. What was the maximum height reached above the thrower's hand?
Use (g= -9.8 m/s/s) What was the average total time of your tossed directly into the air object? The average total time of my object tossed directly into the air object was 0.66 seconds. 2. What was the initial velocity of the object as it left the thrower's hand? (Use the image attached to solve this replacing the time with 0.66 seconds). 3. What was the maximum height reached above the thrower's hand?
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter15: Oscillations
Section: Chapter Questions
Problem 65AP: A 2.00-kg object hangs, at rest, on a 1.00-m-long string attached to the ceiling. A 100-g object is...
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Use (g= -9.8 m/s/s)
What was the average total time of your tossed directly into the air object?
The average total time of my object tossed directly into the air object was 0.66 seconds.
2. What was the initial velocity of the object as it left the thrower's hand? (Use the image attached to solve this replacing the time with 0.66 seconds).
3. What was the maximum height reached above the thrower's hand?
Transcribed Image Text:CO
Can you discover a way to solve for how
fast the thrower tossed the object upwards?
X-X₁-X₁
Givens:
X=
x=0
t = 1.225
V₁ = Want
V₁ = ?
a = -983/15² | Jus
duş
V
Q
X = V₁ t + 12 at
0 = V₁ (1.23) + (-98) (1.23²)
0 = 1.22V₁ - 7.3
+7.3
+7.3
73
1.32
= 1.23 Vi
T.5%
5.984 m/s = Vi
total path, up and
down in 1.22 s
t
V₁=24+ at
v² = ² + 2ax
1
x = v₁t + = at²
(Z).
2
t
*I will analyze my created models that will
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