The mass of the helicopter is 9350 kg. It takes off vertically at time t= 0. The pilot advances the throttle so that the upward thrust of its engine (in kN) is given as a function of time in seconds by T-100+2t (Eigure 1) Figure Ⓒ10/1 Part A 1-6.76 Determine the magnitude of the linear impulse due to the forces acting on the helicopter from t 0 tot = 2.70 s Express your answer with the appropriate units. Submit Previosis Answers Request Answer Part B A X Incorrect; Try Again; 5 attempts remaining CHA Value Submit m Provide Feedback Use the principle of impulse and momentum to determine how fast the helicopter is moving at t 2.70% Express your answer with the appropriate units. Request Answer ? Units 1 of 4 Constants ? Next >

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<022 CH 16.1 Problem 16.3 The mass of the helicopter is 9350 kg. It takes off vertically at time t= 0. The pilot advances the throttle so that the upward thrust of its engine (in kN) is given as a function of time in seconds by T-100+21 (Eloure 1) Figure 1 of 1 Part A 1- 6.76 Determine the magnitude of the linear impulse due to the forces acting on the helicopter from t 0 to t=2.70 s Express your answer with the appropriate units. HA Submit Previous Answers Request Answer Part B * Incorrect; Try Again; 5 attempts remaining U= Value Submit m Use the principle of impulse and momentum to determine how fast the helicopter is moving att 2.70 s. Express your answer with the appropriate units. μA Provide Feedback Request Answer ? 1 of 4 C? Units Constants Next >