Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
N-body problem wikipedia , lookup
Classical central-force problem wikipedia , lookup
Relativistic mechanics wikipedia , lookup
Center of mass wikipedia , lookup
Seismometer wikipedia , lookup
Newton's laws of motion wikipedia , lookup
Centripetal force wikipedia , lookup
Equivalence principle wikipedia , lookup
Work (physics) wikipedia , lookup
2.6 UNDERSTANDING GRAVITY Is a region around the earth where an object experiences a force acting on it towards the centre of the earth. Gravitational field earth It is the force of gravity that pulls all objects towards the centre of the earth. earth Gravitational force acting on a unit mass in the field. Formula: g = F Gravitational force m mass Also can be define as the ratio of the weight to the mass of the object Formula : g = W weight m SI unit Nkg-1 When an object is at rest, g (= 9.8 Nkg-1) is the earth’s gravitational strength acting on it. Will decrease when the distance of the object from the centre of earth increase. gmoon = 1/6 gearth • Acceleration of an object due to the pull of the gravitational force. • The acceleration due to gravity for a freely falling body has a value of about 9.8 ms-2. (+g = object moving downward, -g = object moving upward ) • Free fall: – Refer to an object which is falls due to gravitational force – – – – only. Not effected by mass and shape of the object. Only occur in vacuum. Assumed that air resistance is zero. g = 9.8 ms-2 Weight is the force of gravity acting on the object. Symbol : W Vector quantity SI unit Newton, N Formula : F = ma since F = W, a = g W = mg acceleration due to gravity mass of object Comparison between weight and mass Weight, W Differences Mass , m Measurement of gravitational force on the body Definition Measurement of the quantity of matter in the body Vector quantity Physical quantity Scalar quantity Derived quantity Types of quantity Base quantity SI unit Kilogram , kg Newton , N According to the gravitational field strength Changing of value Constant everywhere regardless of the place and location Example What is the weight of an object of mass 5.0 kg 1. On the surface of the earth 2. On the gravitational of the moon ( gravitational field strength = 10 Nkg-1) Solution : 1. We = mg = 5.0 kg x 10 Nkg-1 = 50 N 2. Wm = mg = 5.0 kg x 1/6 ( 10 Nkg-1) = 8.33N 1. 2. 1) 2) 3) a) b) Wei Bo is a basketball player. His vertical leap is 0.75m. What is his take-off speed? Answer : 3.87ms-1 A coconut 1.5 seconds to fall to the ground. What is Its speed when it strike the ground? The height of the coconut tree? Answer = 15 ms-1 Answer = 11.3 m A ball is thrown vertically upwards with an initial velocity of 20 ms-1. If g = 10 ms-2 and air resistance can be neglected, find Maximum height reached The time taken before it reaches the ground Answer = 2om Answer = 4s