Section Vertical Circular Motion

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Section 11.3 Vertical Circular Motion

When a ball on the end of a string is swung in a vertical circle, the ball is accelerating because A. the speed is changing. B. the direction is changing. C. the speed and the direction are changing. D. the ball is not accelerating.

When a ball on the end of a string is swung in a vertical circle, the ball is accelerating because A. the speed is changing. B. the direction is changing. C. the speed and the direction are changing. D. the ball is not accelerating.

When a ball on the end of a string is swung in a vertical circle: What is the direction of the acceleration of the ball? A. Tangent to the circle, in the direction of the ball s motion B. Toward the center of the circle

When a ball on the end of a string is swung in a vertical circle: What is the direction of the acceleration of the ball? A. Tangent to the circle, in the direction of the ball s motion B. Toward the center of the circle

For the ball on the end of a string moving in a vertical circle: What is the direction of the net force on the ball? A. tangent to the circle B. toward the center of the circle C. there is no net force

For the ball on the end of a string moving in a vertical circle: What is the direction of the net force on the ball? A. tangent to the circle B. toward the center of the circle C. there is no net force

For the ball on the end of a string moving in a vertical circle: What force is producing the centripetal acceleration of the ball? A. gravity B. air resistance C. normal force D. tension in the string

For the ball on the end of a string moving in a vertical circle: What force is producing the centripetal acceleration of the ball? A. gravity B. air resistance C. normal force D. tension in the string

So far, in describing the motion of an object in a circle, we have ignored the effect of the force of gravitation. Think about a roller coaster going around a loop. Because of the force of gravity, the speed of the coaster in the circular path is not constant. The coasters car accelerated on the downward path and decelerates on the upward part. The speed is a minimum at the top of the loop and a maximum at the bottom of the loop.

Loop-the-Loop As the car or motorcycle goes around loop, the normal force (F N ) is the apparent weight of the person on the motorcycle. This changes as they move around the loop. The force can be found in four places easily. Let s think about a free-body diagram and use Newton s 2 nd Law at each location.

F = ma c F N1 - F W = mv 2 / r Loop-the-Loop Position #1

F = ma c F N2 = mv 2 / r Loop-the-Loop Position #2

F = ma c F N3 + F W = mv 2 / r Loop-the-Loop Position #3

F = ma c F N4 = mv 2 / r Loop-the-Loop Position #4

Minimum Speed (Top of Loop) Must have minimum speed at top of loop F N3 + F w = mv 2 / r F N3 = 0 if barely touching F W = mg = mv 2 /r g = v 2 /r V min gr

Example #1: A 60 kg person moves along the loop of a roller coaster with a radius of 15 meters and a circular speed of 22 m/s. a. What is the apparent weight of the person at the top of the loop? b. What is the apparent weight of the person at the bottom of the loop? c. What is the critical speed of this coaster loop?

Example #2 A 2-kg rock swings in a vertical circle of radius 8 m. The speed of the rock is 10 m/s. a. What is tension (F T ) in the rope at the highest point? b. What is the tension in the rope at the lowest point? c. What is the critical speed of the rock at the top of the circle?

G Forces A G -Force is a way to quantify the sum of all forces on a person. We can experience both positive and negative G- forces. A G -force is the feeling of weightlessness and the feeling of being heavier than you actually are. Positive G force is when you fell really heavy (when you get pushed into the seat while on a roller coaster). Negative G force is when you feel weightless (when you feel like you or going to fly out of the seat while on a roller coaster)

G Forces The force of gravity when you sit, stand or lie down is 1 G, though the total sum of the forces on you is zero. If you carry someone of the same weight on your back and walk around, you re feeling a force of 2 G s.

G Forces A person can experience a maximum of 9 positive G s before blacking out. Some say that a human can experience up to 100 G s for a fraction of a second (the body compresses a little so it doesn t feel an instantaneous acceleration). Roller coasters typically peak at 5 G s to ensure safety and comfort. At >20 G s there is a potential for death due to internal injuries (organs are moving around).

G Forces A person can experience a maximum of 2-3 negative G s before blood vessels in the eyes rupture. Beyond 2-3 results in brain hemorrhage, and other internal disturbances (marked discomfort).

Calculating G Forces (Thrill Factor) The Thrill Factor, will be the value of a c (Centripetal acceleration) divided by the value of g (9.81 m/s 2 ). g' s ac 9. 81m / s 2 This will actually be an expression of the acceleration experienced by the rider, in multiples of Earth's gravity. This is the quantity commonly referred to as G-force.

Highest G-Force on a Roller Coaster Largest: 6.3 G o Tower of Terror (Gold City Reef) o Johannesburg, Gauteng, South Africa Largest: 5.9 G o Shock Wave (Six Flags over Texas) o Arlington, Texas

Kings Island Highest G-Force on a Roller Coaster o The Beast (3.1 G) o Vortex (3.9 G) o Diamondback (4.2 G) o Firehawk (4.3 G) o Invertigo (5G)

Example #3 A 50 kg boy is riding his 1 st roller coaster. He encounters the bottom of a small dip having a radius of curvature of 15 m. At the bottom of this dip they are traveling with a speed of 16 m/s and experiencing a much larger than usual normal force. a. What is their centripetal acceleration? b. What is the normal force? c. How many G s are they experiencing?

Example #4 A physics student is whirling a bucket of water in a vertical circle of radius 1.5 meters. What is the minimum speed the bucket must maintain so that none of the water spilled out of the bucket?

Example #5 A 1.8 kg stone moves in a vertical circle at constant speed. The stone is attached to a light weight rod 0.5 meters long and makes 0.75 rev/sec. a. What is the force exerted by the rod on the stone when it is at the top of the circular path? b. What is the force exerted by the rod on the stone when it is at the bottom of the circular path? c. What is the G force at the top and bottom of the circular path?

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