Part 1of-Conceptualie: We see that we are given the initial conditions for the motion of the fish at t-0: its initial position and its initial velacity. It snims for 21.0 s, and we now know the final velodity of the fish at t- 21.0 s. From this information, we want to find its acceleration and then some information about the fish at a later time of 27.0 s. We expect the acceleration to be something reasonable for a fish, that is, much less than the acceleration due to gravity. We also expect the acceleration to have components in both the xand y directions. (1) which of the graphs below is the best dchaice to represent the initial conditions in this probiem, shoning the comrect initial position vector for the fish (in black) and the comect initial velocity vector for the fish (in red)?

Part 1of-Conceptualie: We see that we are given the initial conditions for the motion of the fish at t-0: its initial position and its initial velacity. It snims for 21.0 s, and we now know the final velodity of the fish at t- 21.0 s. From this information, we want to find its acceleration and then some information about the fish at a later time of 27.0 s. We expect the acceleration to be something reasonable for a fish, that is, much less than the acceleration due to gravity. We also expect the acceleration to have components in both the xand y directions. (1) which of the graphs below is the best dchaice to represent the initial conditions in this probiem, shoning the comrect initial position vector for the fish (in black) and the comect initial velocity vector for the fish (in red)?

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Question

Please answer by indicating which is correct, A,B,C, or D

Part 1 of 9- Concaptualize:
We see that we are given the initial conditions for the motion of the fish at t - 0: its initial position and its
initial velocity. It swims for 21.0 s, and we now know the final velocity of the fish at t - 21.0 s. From this
information, we want to find its acceleration and then some information about the fish at a later time of
27.0 s. We expect the acceleration to be something reasonable for a fish, that is, much less than the
acceleration due to gravity. We also expect the acceleration to have components in both the x and y
directions.
(1) Which of the graphs below is the best choice to represent the initial conditions in this problem, showing
the correct initial position vector for the fish (in black) and the correct initial velocity vector for the fish (in
red)?
O choice (a) above
O choice (b) above
O choice (c) above
O choice (d) above
O none of the above

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