What is the final velocity, in meters per second, of a freight train that accelerates at a rate of 0.085 m/s for 8.75 min, starting with an initial ity of 3.6 m/s? cos) tan() 7. 8. 9. sin() cotan() asin) acos) E 4 6. atan() acotan() sinh) 1 2. 3. cotanh() END cosh() ODegrees tanh) Radians KLEAR Submit I give up! Hint Feedback: 0% deduction per feedhack deduction per hint. Hints remaining: 2 iPart (b) If the train can slow down at a rate of 0.625 m/s", how long, in seconds, does it take to come to a stop from this velocity? Part (c) How far, in meters, does the train travel during the process described in part (a)? Part (d) How far, in meters, does the train travel during the process described in part (b)?

Please answer Parts A-D

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(33%) Problem 1: Freight trains can produce only relatively small accelerations and decelerations. What is the final velocity, in meters per second, of a freight train that accelerates at a rate of 0.085 m/s for 8.75 min, starting with an initial velocity of 3.6 m/s? v = | cos() tan() 8. 9. HOME sin() cotan() atan() asin) acos() E 1 4 5 6 acotan() sinh 1 3. END tanh) Rudians cosh() cotanh() ODegrees VOACKSPACE CLEAR Feedhack I give up! Submit Hint Feedback: 0% deduction per feedhack. Hin deduction per hint. Hints remaining: 2 Part (b) If the train can slow down at a rate of 0.625 m/s", how long, in seconds, does it take to come to a stop from this velocity? Part (c) How far, in meters, does the train travel during the process described in part (a)? Part (d) How far, in meters, does the train travel during the process described in part (b)? MacBook Air DD 200 10 80 17