A cannonball is fired horizontally (launch angle (1) of 0°) from a height h above the ground, as in the image to the right. The launch velocity is vo, and we are only considering acceleration due to gravity. Show your work as you determine analytical (that is, symbolically in terms of variables and constants) equations for: (a) the time At before the cannonball hits the ground, in terms of h, vo, and the acceleration due to gravity the distance x that the object travels horizontally before (b) term the acceleration due to gravity
A cannonball is fired horizontally (launch angle (1) of 0°) from a height h above the ground, as in the image to the right. The launch velocity is vo, and we are only considering acceleration due to gravity. Show your work as you determine analytical (that is, symbolically in terms of variables and constants) equations for: (a) the time At before the cannonball hits the ground, in terms of h, vo, and the acceleration due to gravity the distance x that the object travels horizontally before (b) term the acceleration due to gravity
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what is the answer for the first question part a and b
Transcribed Image Text:A cannonball is fired horizontally (launch angle
(1)
of 0°) from a height h above the ground, as in the
image to the right. The launch velocity is vo, and we
are only considering acceleration due to gravity. Show
your work as you determine analytical (that is,
symbolically in terms of variables and constants)
equations for:
(a)
the time At before the cannonball hits the
ground, in terms of h, vo, and the acceleration
due to gravity
the distance x that the object travels horizontally before
(b)
term
the acceleration due to gravity
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