On level ground a shell is fired with an initial velocity of 44.0 m/s at 57.0° above the horizontal and feels no appreciable air resistance.
Part A
Find the horizontal and vertical components of the shell's initial velocity.
Part B
How long does it take the shell to reach its highest point?
Part C
Find its maximum height above the ground.
Part D
How far from its firing point does the shell land?
Part E At its highest point, find the horizontal and vertical components of its acceleration
Part F At its highest point, find the horizontal and vertical components of its velocity.
On level ground a shell is fired with an initial velocity of 44.0 m/s at 57.0°...
On level ground a shell is fired with an initial velocity of 83.7 m/s at 50.8 ∘ above the horizontal and feels no appreciable air resistance. A) Find the horizontal and vertical components of the shell's initial velocity. B) How long does it take the shell to reach its highest point? C) Find its maximum height above the ground. D) How far from its firing point does the shell land? E) At its highest point, find the horizontal and vertical...
On level ground a shell is fired with an initial velocity of 30.0 m/s at 55.0° above the horizontal and feels no appreciable air resistance. Part A Find the horizontal and vertical components of the shell's initial velocity Express your answers in meters per second separated by a comma. PO AQ 0 2 ? VOh, Voy = Voh , Vov = m/s Submit Request Answer Part B How long does it take the shell to reach its highest point? Express...
On level ground a shell with an initial velocity of 31.0 m/s at 52.0 degree above the horizontal and feels no appreciable air resistance. Find its maximum height above the ground. Express your answer using three significant figures. h_max = How far from its firing point does the shell land? Express your answer using three significant figures. t = At its highest point, find the horizontal and vertical components of its acceleration. Enter your answers numerically separated by a comma.
Exercise 3.16: Constants - Part A Find the horizontal and vertical components of the shell's initial velocity Enter your answers numerically separated by a comma. m/s Submit Request Answer v Part B How long does it take the shell to reach its highest point? Express your answer using three significant figures Part C Find its maximum height above the ground. Express your answer using three significant figures. hsVae Units Submit Request Answer Part D How far from its firing point...
A tennis player hits a ball at ground level, giving it an initial velocity of 27.0 m/s at 59.0 ∘ above the horizontal. Part A.) What are the horizontal vh and vertical vv components of the ball's initial velocity? Part B.) How high above the ground does the ball go? Part C.) How long does it take the ball to reach its maximum height? Part D.) What is the ball's velocity at its highest point? Part E.) What is the...
At a height h = 44.0 m above the ground a rocket is fired at an initial speed v0 = 168.0 m/s at an angle θ = 27 degrees above the horizontal. Ignore air resistance. The magnitude of the gravitational acceleration is 9.8 m/s2. Choose the RIGHT as positive x-direction. Choose UPWARD as psotitive y-direction. Keep 2 decimal places in all answers (a) Find v0x, the x component of the initial velocity (in m/s) (b) Find v0y, the y component...
An artillery shell is fired with an initial velocity of 300 m/s at 51.0° above the horizontal. To clear an avalanche, it explodes on a mountainside 42.5 s after firing. What are the x- and y-coordinates of the shell where it explodes, relative to its firing point?
An artillery shell is fired with an initial velocity of 300 m/s at 48.0° above the horizontal. To clear an avalanche, it explodes on a mountainside 37.0 s after firing. What are the x- and y-coordinates of the shell where it explodes, relative to its firing point? x=? y=?
An artillery shell is fired with an initial velocity of 300 m/s at 47.5° above the horizontal. To clear an avalanche, it explodes on a mountainside 39.5 s after firing. What are the x- and y-coordinates of the shell where it explodes, relative to its firing point? x = m y = m
To start an avalanche on a mountain slope, an artillery shell is fired with an initial velocity of 310 m/s at 57.0° above the horizontal. It explodes on the mountainside 37.0 s after firing. What are the x and y coordinates of the shell where it explodes, relative to its firing point? x=? (m) y=? (m)