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Circular motion
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Objects rotate when the axis is part of the moving object.
Objects revolve when the axis is not part of the moving object. 2
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Earth revolves around the Sun while it rotates around its north-south axis
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Angular speed is the rate at which an object rotates or revolves.
number of turns per unit of time (rotations/minute) 4
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We usually think of acceleration as a change in speed.
Because velocity includes both speed and direction, acceleration can also be a change in the direction of motion.
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Any force that causes an object to move in a circle is called a centripetal force.
A centripetal force is always perpendicular to an object’s motion, toward the center of the circle.
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The magnitude of the centripetal force needed to move an object in a circle depends on the object’s mass and speed, and on the radius of the circle.
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Fc = mv2 r Mass (kg) Linear speed Centripetal (m/sec) force (N)
Radius of path (m)
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A 50-kilogram passenger on an amusement park ride stands with his back against the wall of a cylindrical room with radius of 3 m. What is the centripetal force of the wall pressing into his back when the room spins and he is moving at 6 m/sec? You are asked to find the centripetal force. You are given the radius, mass, and linear speed. Use: Fc = mv2 ÷ r Solve: Fc = (50 kg)(6 m/s)2 ÷ (3 m) = 600 N
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Acceleration is the rate at which an object’s velocity changes as the result of a force.
Centripetal acceleration is the acceleration of an object moving in a circle due to the centripetal force.
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ac = v2 r Speed (m/sec) Centripetal acceleration (m/sec2)
Radius of path (m)
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A motorcycle drives around a bend with a 50-meter radius at 10 m/sec
A motorcycle drives around a bend with a 50-meter radius at 10 m/sec. Find the motor cycle’s centripetal acceleration and compare it with g, the acceleration of gravity. You are asked for centripetal acceleration and a comparison with g (9.8 m/s2). You are given the linear speed and radius of the motion. Use: ac = v2 ÷ r 4. Solve: ac = (10 m/s)2 ÷ (50 m) = 2 m/s2 The centripetal acceleration is about 20%, or 1/5 that of gravity.
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We call an object’s tendency to resist a change in its motion its inertia.
An object moving in a circle is constantly changing its direction of motion. Although the centripetal force pushes you toward the center of the circular path...it seems as if there also is a force pushing you to the outside.
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Centrifugal force is not a true force exerted on your body.
It is simply your tendency to move in a straight line due to inertia.
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Newton’s law of universal gravitation: Gravitational force exists between all objects that have mass. The strength of the gravitational force depends on the mass of the objects and the distance between them.
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The mass of the Moon is 7. 36 × 1022 kg. The radius of the moon is 1
The mass of the Moon is 7.36 × 1022 kg. The radius of the moon is 1.74 × 106 m. Use the equation of universal gravitation to calculate the weight of a 90-kg astronaut on the Moon’s surface. You are asked to find a person’s weight on the Moon. You are given the radius and the masses. Use: Fg = Gm1m2 ÷ r 2 Solve:
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If an object is launched above Earth’s surface at a fast enough speed, it’s parabolic path will match the earth’s curvature. The motion of a satellite is closely related to projectile motion.
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Project -Groups 3-4 Topics: -Amusement rides -5-10 min Presentation
-Autorun Powerpoint -Must answer the guiding questions Topics: -Amusement rides -Planets -Satellites -Cars on circular racetracks -Artificial gravity
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