A fish swimming in a horizontal plane has velocity v, = (4.00 i + 1.00 j) m/s at a point in the ocean where the position relative to a certain rock is i, (14.0 i - 1.60 j) m. After the fish swims with constant acceleration for 15.0 s, its velocity is v = (17.0 i - 6.00 j) m/s. (a) What are the ocomponents of the acceleration of the fish? ay 0.87 m/s? 0.47 m/s? (b) What is the direction of its acceleration with respect to unit vector i? 331.62 counterclockwise from the +x-axis (c) If the fish maintains constant acceleration, where is it at t= 26.0 s? 412.1 134.46 Remember that you can treat the motions in the x and y directions separately. Each is then treated exactly as you would the one-dimensional case. m In what direction is it moving? 341.54 counterclockwise from the +x-axis Need Help? Master t

A fish swimming in a horizontal plane has velocity v, = (4.00 i + 1.00 j) m/s at a point in the ocean where the position relative to a certain rock is i, (14.0 i - 1.60 j) m. After the fish swims with constant acceleration for 15.0 s, its velocity is v = (17.0 i - 6.00 j) m/s. (a) What are the ocomponents of the acceleration of the fish? ay 0.87 m/s? 0.47 m/s? (b) What is the direction of its acceleration with respect to unit vector i? 331.62 counterclockwise from the +x-axis (c) If the fish maintains constant acceleration, where is it at t= 26.0 s? 412.1 134.46 Remember that you can treat the motions in the x and y directions separately. Each is then treated exactly as you would the one-dimensional case. m In what direction is it moving? 341.54 counterclockwise from the +x-axis Need Help? Master t