A 2000kg sailboat experiences an eastward force of 3 000 N by the ocean tide and...
A 2000kg sailboat experiences an eastward force of 3 000 N by the ocean tide and a wind force against its sails with magnitude of 6 000 N directed toward the northwest (45° N of W).
What is the magnitude of the resultant acceleration?
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A 2000kg sailboat experiences an eastward force of 3 000 N by
the ocean tide and...
A 27000 kg sailboat experiences an eastward force of 21800 N due to tide pushing its...
A 27000 kg sailboat experiences an eastward force of 21800 N due to tide pushing its hull while the wind pushes the sails with a force of 59500 N directed toward the northwest (45◦westward of North or 45◦ northward of West). What is the magnitude of the resultant acceleration of the sailboat? Answer in units of m/s 2
physics
A 2 000-kg sailboat experiences an eastward force of 3 000 N by the ocean tide and a wind forceagainst its sails with magnitude of 6 000 N directed toward the northwest (45° N of W). What is thedirection of the resultant acceleration?
S2o mys)56.1 m/s 66.5 m/s 53.1 m/s 8501675 A 2,000-kg sailboat experiences an eastward force of...
S2o mys)56.1 m/s 66.5 m/s 53.1 m/s 8501675 A 2,000-kg sailboat experiences an eastward force of 3000 N by the ocean tide and a force against its sails with magnitude of 8000 N directed 55° north of west as shown in the diagram below. Calculate the resultant acceleration of the sailboat. 6) Fw 8000 N 55° Ft 3000 N 2000 kg 2.5 m/s 2.9 m/s 3.4 m/s 2.0 m/s 3.8 m/s
6. When a moving car is brought to a stop with its breaks, its acceleration vector...
6. When a moving car is brought to a stop with its breaks, its acceleration vector is A. in the same direction as its velocity B. equal to zero C. directed downward D. directed upward E. opposite to the velocity vector 7. A 2 000-kg sailboat experiences an eastward force of 3 000 N by the ocean tide and a wind force against its sails with magnitude of 6 000 N directed toward the northwest (45° N of W). What...
A driver coasts down a hill 200 m high with initial speed vo 35 m/s. The...
A driver coasts down a hill 200 m high with initial speed vo 35 m/s. The road has friction that results in a negative work -1.7 x 10° J. The effect of this is that the total initial energy is reduced by this amount by the time the car reaches the bottom of the hill. Calculate the speed of the car when it reaches the bottom of the hill. The mass of driver and passenger is 1750 kg 59.3 m/s...
6. When a moving car is brought to a stop with its breaks, its accelermation vector...
6. When a moving car is brought to a stop with its breaks, its accelermation vector is A. in the same direction as its velocity B. equal to zero C. directed downward D. directed upward E. opposite to the velocity vector 7. A 2 000-kg sailboat experiences an eastward force of 3 000 N by the ocean tide and a wind force against its sails with magnitude of 6 000 N directed toward the northwest (45P N of W What...
Part 2 (Choose 3 Nom TUTT I 1. A race car starts from rest and travels...
Part 2 (Choose 3 Nom TUTT I 1. A race car starts from rest and travels 400 meters in 5.2 seconds. When it crosses the finish line it has a final velocity of 140 m/s. a) What is the acceleration (a) of this car? b) How much time was spent traveling from 100 m/s to 140 m/s? c) If this car continued at this rate of acceleration, how long would it take for it to travel 800 meters? 2. A...
S2o mys)56.1 m/s 66.5 m/s 53.1 m/s 8501675 A 2,000-kg sailboat experiences an eastward force of 3000 N by the ocean tide and a force against its sails with magnitude of 8000 N directed 55° north of west as shown in the diagram below. Calculate the resultant acceleration of the sailboat. 6) Fw 8000 N 55° Ft 3000 N 2000 kg 2.5 m/s 2.9 m/s 3.4 m/s 2.0 m/s 3.8 m/s
6. When a moving car is brought to a stop with its breaks, its acceleration vector is A. in the same direction as its velocity B. equal to zero C. directed downward D. directed upward E. opposite to the velocity vector 7. A 2 000-kg sailboat experiences an eastward force of 3 000 N by the ocean tide and a wind force against its sails with magnitude of 6 000 N directed toward the northwest (45° N of W). What...
A driver coasts down a hill 200 m high with initial speed vo 35 m/s. The road has friction that results in a negative work -1.7 x 10° J. The effect of this is that the total initial energy is reduced by this amount by the time the car reaches the bottom of the hill. Calculate the speed of the car when it reaches the bottom of the hill. The mass of driver and passenger is 1750 kg 59.3 m/s...
6. When a moving car is brought to a stop with its breaks, its accelermation vector is A. in the same direction as its velocity B. equal to zero C. directed downward D. directed upward E. opposite to the velocity vector 7. A 2 000-kg sailboat experiences an eastward force of 3 000 N by the ocean tide and a wind force against its sails with magnitude of 6 000 N directed toward the northwest (45P N of W What...
Part 2 (Choose 3 Nom TUTT I 1. A race car starts from rest and travels 400 meters in 5.2 seconds. When it crosses the finish line it has a final velocity of 140 m/s. a) What is the acceleration (a) of this car? b) How much time was spent traveling from 100 m/s to 140 m/s? c) If this car continued at this rate of acceleration, how long would it take for it to travel 800 meters? 2. A...
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