Questions D, E and G 2. Consider a ball whose position2 dimensions is described by the equation#(t) = (4" +1:) t + (3m – 0.75);%DA) What are the x(t) and y(t) functions describing the components of this motion over time?B) Make a careful y vs. x plot showing the position of the ball at the times Os, 2s, 4s, and 6s,then sketch a smooth curve connecting these points that approximates the ball's trajectory.Be sure to label your axes.C) What is the maximum height (maximum y value) the ball gets to over this interval? Youshould calculate this exactly from the equations and then check that your answer is consistentwith your plot.D) What is the velocity function v(t) for this motion?E) On each of the 4 points on your plot at times Os, 2s, 4s, and 6s, draw the correspondingvelocity vector so that each vector's tail starts at the position point. Since the plot is in termsof position, the scale of length of the velocity vector can’t be realized, but you should drawthe direction of the vectors carefully given the relative size of their x and y components.F) What is the geometrical relation between the velocity vector lines you've drawn and theposition curve?G) Finally, on each of the 4 points on your plot draw an acceleration vector corresponding to theacceleration the ball experiences at each point. Again each vector's tail should start at the

Answered: Image /qna-images/answer/fda99cd6-19d3-437c-bb70-9ff9d035d0e6.jpg

Answered: F(O) = (4%)+1)t+(3m-075프2) 7(t) %3D

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Advanced Physics

F(O) = (4%)+1)t+(3m-075프2) 7(t) %3D

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Question

Questions D, E and G

2. Consider a ball whose position
2 dimensions is described by the equation
#(t) = (4" +1:) t + (3m – 0.75);
%D
A) What are the x(t) and y(t) functions describing the components of this motion over time?
B) Make a careful y vs. x plot showing the position of the ball at the times Os, 2s, 4s, and 6s,
then sketch a smooth curve connecting these points that approximates the ball's trajectory.
Be sure to label your axes.
C) What is the maximum height (maximum y value) the ball gets to over this interval? You
should calculate this exactly from the equations and then check that your answer is consistent
with your plot.
D) What is the velocity function v(t) for this motion?
E) On each of the 4 points on your plot at times Os, 2s, 4s, and 6s, draw the corresponding
velocity vector so that each vector's tail starts at the position point. Since the plot is in terms
of position, the scale of length of the velocity vector can’t be realized, but you should draw
the direction of the vectors carefully given the relative size of their x and y components.
F) What is the geometrical relation between the velocity vector lines you've drawn and the
position curve?
G) Finally, on each of the 4 points on your plot draw an acceleration vector corresponding to the
acceleration the ball experiences at each point. Again each vector's tail should start at the

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