An object is projected upward from ground level at an angle (Theta) and the air resistance is negligible. If the initial velocity, v0, of the object is given in ft/sec and time t is measured in seconds, then the formulas for the object's height h and the horizontal distance traveled (the range) d after t seconds into flight are as follows. h= V0 t sin (Theta) - 16t2 d = tv0 cos (Theta) If (Theta) = 30 (Degrees) and the initial velocity is 140 ft/sec what is the following? (a) The object's maximum height. (b) The object's range.
An object is projected upward from ground level at an angle (Theta) and the air resistance is negligible. If the initial velocity, v0, of the object is given in ft/sec and time t is measured in seconds, then the formulas for the object's height h and the horizontal distance traveled (the range) d after t seconds into flight are as follows. h= V0 t sin (Theta) - 16t2 d = tv0 cos (Theta) If (Theta) = 30 (Degrees) and the initial velocity is 140 ft/sec what is the following? (a) The object's maximum height. (b) The object's range.
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter1: Introduction And Vectors
Section: Chapter Questions
Problem 13OQ: Figure OQ1.13 shows two vectors D1 and D2. Which of the possibilities (a) through (d) is the vector...
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An object is projected upward from ground level at an angle (Theta) and the air resistance is negligible. If the initial velocity, v0, of the object is given in ft/sec and time t is measured in seconds, then the formulas for the object's height h and the horizontal distance traveled (the range) d after t seconds into flight are as follows.
h= V0 t sin (Theta) - 16t2
d = tv0 cos (Theta)
If (Theta) = 30 (Degrees) and the initial velocity is 140 ft/sec what is the following?
(a) The object's maximum height.
(b) The object's range.
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