Homework Answers
when the body was falling initially without opening parachute two force were acting, one gravitational force and other is friction force due to air resistance...... but when he open the parachute then force due to air resistance increase because force due to air resistance is directly proportional to velocity and area of body..... when velocity increases then a state comes where air friction is equal to force due to gravity, so acceleration of body is zero, means constan velocity is achieved.
so option 3 will be best possible answer amoung the all other options.
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003 10.0 points A man jumps from an airplane and does not open his parachute immediately....
John jumps out of an airplane at a height of 10,000 feet and opens his parachute....
John jumps out of an airplane at a height of 10,000 feet and opens his parachute. He quickly reaches a terminal velocity of 53 m/s. When he is 146 m above a hovering supply helicopter (and 500 m above ground), a supply package is dropped. The package is small enough that the air resistance is negligible. Will John reach the package? If not, how close does he come?
A man jumps out from an aeroplane. As the man falls, he opens his parachute. What...
A man jumps out from an aeroplane. As the man falls, he opens his parachute. What is the man’s terminal velocity if his drag coefficient with his parachute is 0.55, the combined mass of the man-parachute system is 80 kg, the surface area of the man and his parachute is 10 m^2 , and air density is 1.225 kg/m^3 . If a human can survive up to 13 m/s impact speed on a hard floor, can the parachuting man survive...
5. (6 pts) Stan jumps out of an airplane with a parachute. After 34 seconds, he...
5. (6 pts) Stan jumps out of an airplane with a parachute. After 34 seconds, he opens the parachute. The graph to the right shows Stan's vertical velocity versus time, in a coordinate system where down is positive. Velocity versus Time for a 70 kg Parachuter Stan opens parachute Jumps at t 0 Opens parachute at t 34s a 20 4--Stanjumps from airplane ! 0 10 20 30 40 50 60 time (s) The magnitude of Stan's initial acceleration is...
5.2 Check Your Understanding A skydiver opens his parachute, and shortly thereafter, he is moving a...
5.2 Check Your Understanding A skydiver opens his parachute, and shortly thereafter, he is moving a constant velocity. (a) What forces are acting on him? (b) Which force is bigger?
HI CAAAN YOU PLEASE ASSIST IN THESE PHYSICS PROBLEMS 5. (6 pts) Stan jumps out of an airplane with a parachute. After 3...
HI CAAAN YOU PLEASE ASSIST IN THESE PHYSICS PROBLEMS
5. (6 pts) Stan jumps out of an airplane with a parachute. After 34 seconds, he opens the parachute. The graph to the right shows Stan's vertical velocity versus time, in a coordinate system where down is positive. Velocity versus Time for a 70 kg Parachuter 60 Stan opens parachute Jumps at t 0 Opens parachute att34 s 10 Stan jumps from airplane 0 10 20 30 40 50 60 time...
An airplane pilot fell 340 m after jumping from an aircraft without his parachute opening. He...
An airplane pilot fell 340 m after jumping from an aircraft without his parachute opening. He landed in a snowbank, creating a crater 1.30 m deep, but survived with only minor injuries. a) Assuming the pilot's mass was 94.0 kg and his terminal velocity was 45.0 m/s , estimate the work done by the snow in bringing him to rest. Model him as a particle. b) Estimate the average force exerted on him by the snow to stop him. c)...
A 50kg skydiver jumps out of an airplane. We assume that the forces acting on the body are the force of gravity and a retarding force of air resistance with direction opposite to the direction of motion and with magnitude cv^2 where c=.1275 kg/m and i
A 50kg skydiver jumps out of an airplane. We assume that the forces acting on the body are the force of gravity and a retarding force of air resistance with direction opposite to the direction of motion and with magnitude cv^2 where c=.1275 kg/m and is the velocity of the skydiver at time t (and upward is positive velocity). The gravitational constant is 9.8 m/s^2 . a) Find a differential equation for the velocity. b) Determine the terminal velocity in...
1. If a sky-diver jumps out of a plane, two forces will act on him, gravity...
1. If a sky-diver jumps out of a plane, two forces will act on him, gravity and air resistance. If we assume air resistance is proportional to the velocity, we get the total force on the sky diver will be F = −gm − kv, where g is a acceleration due to gravity on the surface of the earth, m is the mass of the sky-diver, v is the velocity of the sky-diver, and k is constant of proportionality for...
Note that the answer is not: - 0 m/s^2 - 7.848 m/s^2 A skydiver jumps off...
Note that the answer is
not:
- 0 m/s^2
- 7.848 m/s^2
A skydiver jumps off of an airplane. The plane flies at an altitude of 4 km, and at a speed of 100 km/hr. The skydiver "jumps" by simply letting go of the plane and falling out. Gravity is the only thing affecting their motion until they open their parachute at a height of 2.5 km. After opening their parachute, they experience constant acceleration until they land perfectly, with...
2. A 60 kilogram skydiver (more correctly termed a "skyflopper", as the picture below indicates) jumps...
2. A 60 kilogram skydiver (more correctly termed a "skyflopper", as the picture below indicates) jumps from a plane at a height of 1000 meters with an initial velocity of v(0) = 0 meters per second, and falls subject to air resistance whose magnitude is given by 15e, for 25 seconds. At this time his parachute opens and the air resistance is now 180. Assume that the positive direction is downward and the gravitational acceleration constant is g -9.8 m/s,...
John jumps out of an airplane at a height of 10,000 feet and opens his parachute. He quickly reaches a terminal velocity of 53 m/s. When he is 146 m above a hovering supply helicopter (and 500 m above ground), a supply package is dropped. The package is small enough that the air resistance is negligible. Will John reach the package? If not, how close does he come?
5. (6 pts) Stan jumps out of an airplane with a parachute. After 34 seconds, he opens the parachute. The graph to the right shows Stan's vertical velocity versus time, in a coordinate system where down is positive. Velocity versus Time for a 70 kg Parachuter Stan opens parachute Jumps at t 0 Opens parachute at t 34s a 20 4--Stanjumps from airplane ! 0 10 20 30 40 50 60 time (s) The magnitude of Stan's initial acceleration is...
5.2 Check Your Understanding A skydiver opens his parachute, and shortly thereafter, he is moving a constant velocity. (a) What forces are acting on him? (b) Which force is bigger?
HI CAAAN YOU PLEASE ASSIST IN THESE PHYSICS PROBLEMS
5. (6 pts) Stan jumps out of an airplane with a parachute. After 34 seconds, he opens the parachute. The graph to the right shows Stan's vertical velocity versus time, in a coordinate system where down is positive. Velocity versus Time for a 70 kg Parachuter 60 Stan opens parachute Jumps at t 0 Opens parachute att34 s 10 Stan jumps from airplane 0 10 20 30 40 50 60 time...
Note that the answer is
not:
- 0 m/s^2
- 7.848 m/s^2
A skydiver jumps off of an airplane. The plane flies at an altitude of 4 km, and at a speed of 100 km/hr. The skydiver "jumps" by simply letting go of the plane and falling out. Gravity is the only thing affecting their motion until they open their parachute at a height of 2.5 km. After opening their parachute, they experience constant acceleration until they land perfectly, with...
2. A 60 kilogram skydiver (more correctly termed a "skyflopper", as the picture below indicates) jumps from a plane at a height of 1000 meters with an initial velocity of v(0) = 0 meters per second, and falls subject to air resistance whose magnitude is given by 15e, for 25 seconds. At this time his parachute opens and the air resistance is now 180. Assume that the positive direction is downward and the gravitational acceleration constant is g -9.8 m/s,...
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