Now, use the equations for projectile motion to find the same values and fill in the table below. The formulas that you need are given in the columns or in the text. Maximum Height v² = vo-29(y - Yo) 1 Yo = 0 Angle Initial Speed 30° 30° 45° 55° 9 m/s 18 m/s 18 m/s 18 m/s Range Page 63 Time to Reach the Ground x = xo + vxot Time to Reach Max Height Vy = Vyo + ayt
Now, use the equations for projectile motion to find the same values and fill in the table below. The formulas that you need are given in the columns or in the text. Maximum Height v² = vo-29(y - Yo) 1 Yo = 0 Angle Initial Speed 30° 30° 45° 55° 9 m/s 18 m/s 18 m/s 18 m/s Range Page 63 Time to Reach the Ground x = xo + vxot Time to Reach Max Height Vy = Vyo + ayt
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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I'm lost on what they mean... Help please.
I took a pic of the range on page 63
Transcribed Image Text:Fill in the rest of the table below by adjusting the angle and initial speed as listed.
Angle
30°
30°
45°
55°
70°
Initial Speed
30°
30°
9 m/s
18 m/s
18 m/s
18 m/s
18 m/s
Angle Initial
Speed
45°
55°
70°
9 m/s
18 m/s
18 m/s
18 m/s
18 m/s
Maximum
Range
7.15M
28.6m
33.03m
31.04m
21.23m
Range
Page 63
Time to Reach
the Ground
2.595
3.01
3,455
Orals
1.835
Now, use the equations for projectile motion to find the same values and fill in the table below.
The formulas that you need are given in the columns or in the text.
Time to Reach
the Ground
x = xo + vxot
Maximum
Height
1.03m
4:13M
6.26m
11.08m
14.586m
Time to Reach
Maximum
Height
0.463
Maximum Height
v² = v²o - 2g(y - Yo)
yo
Yo = 0
0.925
1.35
1. Ss
1.725
Time to Reach
Max Height
Vy = Vyo + ayt
Transcribed Image Text:R =
vo sin 200
g
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