circular motion & gravitation physics 111N



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Transcription:

circular motion & gravitation physics 111N

uniform circular motion an object moving around a circle at a constant rate must have an acceleration always perpendicular to the velocity (else the speed would change) the velocity is clearly tangent to the circle (or it would move off the circle) hence the acceleration points always toward the center of the circle - centripetal acceleration physics 111N 2

circular motion! velocity is tangent to the curve - can see it by cutting the rope physics 111N 3

uniform circular motion! acceleration is of constant magnitude and directed toward the circle s center! something must provide the force e.g. ball moving on a frictionless plane tethered by a string to a fixed point viewed side on: tension in the string provides a force always pointing toward the center of the circle physics 111N 4

uniform circular motion! acceleration is of constant magnitude and directed toward the circle s center! something must provide the force e.g. a conical pendulum the horizontal component of tension in the string provides a force always pointing toward the center of the circle physics 111N 5

uniform circular motion! acceleration is of constant magnitude and directed toward the circle s center! something must provide the force e.g. car rounding a curve friction between tires & road provides a force pointing toward the center of the circle physics 111N 6

in orbit the Earth is in an orbit around the Sun that is very close to a circle but there is no string joining the Earth to the Sun nor is there anything to have friction against what force is holding the Earth in a circular orbit? gravity physics 111N 8

Newton s law of Gravitation From astronomical observations and precise lab measurements we infer that the force of gravity between two bodies of mass m1 and m2 whose centers are separated by a distance r is where there is a universal constant that controls the strength of gravitational attraction notice Newton s third law at work here physics 111N 9

the scale of gravitation Consider two spheres having mass 5.00 g and 1.00 kg whose centers are separated by 10.00 cm. Two such spheres could be used in a lab experiment called a Cavendish balance. the force is extremely small! gravity is a very weak force, but it always adds up - the more mass a body has, the larger the gravitational pull it can exert on other masses thus gravity becomes important if at least one of the two bodies under consideration is very massive e.g. the Earth & you e.g. the Sun and the Earth physics 111N 10

weight recall that earlier we said that all objects free-fall with an acceleration of g=9.80 m/s 2 due to their weight of magnitude w=mg but now we have a more complete formalism for gravitation can we see where this comes from? gravitational force from the Earth on an object of mass m located close to the surface of the Earth, but this is the weight force thus which is independent of the mass of the body & depends only on the mass and radius of the Earth but now we see that as we get further away from the surface of the Earth, the weight will get smaller! physics 111N 12

satellites the Earth orbits the Sun, the Moon orbits the Earth, GPS, TV, spy... satellites orbit the Earth... they are all examples of satellites where the only important force is gravitational attraction Moon Earth so why doesn t the moon plummet toward the Earth given that it is accelerating toward it? physics 111N 14

satellites consider a thought experiment where the moon got into its orbit by being launched from a huge platform Moon suppose we dropped the moon with negligible tangential velocity Moon Earth Earth the moon would fall straight down to the Earth physics 111N 15

satellites consider a thought experiment where the moon got into its orbit by being launched from a huge platform Moon suppose we fire the moon with increasing tangential velocity Earth physics 111N 16

satellite in a circular orbit suppose a satellite is found to be in a circular orbit, what do Newton s laws say about the motion? forces: (just gravity) directed radially inward acceleration: (in circular motion) relation to the orbital period: physics 111N 17

weightless in the ISS the International Space Station orbits the Earth every 91 minutes at a distance of 353 km above the surface of the Earth physics 111N 20

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