(COLLAB) Simulate projectile motion with air resistance in PhysLab. A shuttlecock is launched from the ground with an initial speed of 37.2044 m/s at an angle of 8.8162 degrees with respect to the horizontal. The shuttlecock experiences air resistance with a drag coefficient of 0.2903 in an environment where the air density is 0.1313 kg/m^3. If the shuttlecock has a radius of 3.4 cm and a mass of 5.2 grams, what is the maximum height reached by the shuttlecock? Assume that the experiment is done near the surface of the earth
(COLLAB) Simulate projectile motion with air resistance in PhysLab. A shuttlecock is launched from the ground with an initial speed of 37.2044 m/s at an angle of 8.8162 degrees with respect to the horizontal. The shuttlecock experiences air resistance with a drag coefficient of 0.2903 in an environment where the air density is 0.1313 kg/m^3. If the shuttlecock has a radius of 3.4 cm and a mass of 5.2 grams, what is the maximum height reached by the shuttlecock? Assume that the experiment is done near the surface of the earth
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(COLLAB) Simulate projectile motion with air resistance in PhysLab. A shuttlecock is launched from the ground with an initial speed of 37.2044 m/s at an angle of 8.8162 degrees with respect to the horizontal. The shuttlecock experiences air resistance with a drag coefficient of 0.2903 in an environment where the air density is 0.1313 kg/m^3. If the shuttlecock has a radius of 3.4 cm and a mass of 5.2 grams, what is the maximum height reached by the shuttlecock? Assume that the experiment is done near the surface of the earth.
Transcribed Image Text:(COLLAB) Simulate projectile motion with air resistance in PhysLab. A
shuttlecock is launched from the ground with an initial speed of 37.2044 m/s at an
angle of 8.8162 degrees with respect to the horizontal. The shuttlecock experiences
air resistance with a drag coefficient of 0.2903 in an environment where the air
density is 0.1313 kg/m. If the shuttlecock has a radius of 3.4 cm and a mass of 5.2
grams, what is the maximum height reached by the shuttlecock? Assume that the
experiment is done near the surface of the earth.
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