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1.6 Acceleration Near Earth’s Surface • Before the 1500s, philosopher Aristotle theorized that falling objects travelled at constant speeds, and more massive objects fall faster than less massive objects. • Galileo Galilei proposed that objects of different mass will accelerate at the same rate. • What actually affects the rate of fall is the air resistance acting on an object due to its mass and surface area. • Galileo supposedly proved this by dropping a cannon ball and a musket ball of different masses off the leaning tower of Pisa. Both hit the ground simultaneously. 1.6 Acceleration Near Earth’s Surface 1.6 Acceleration Near Earth’s Surface • If you accidentally drop your mother’s favourite dish, you will directly (and I suppose indirectly) feel how significant the effect of gravity is. • Acceleration due to Gravity (𝒈) occurs when an object falls freely. It does not depend on the mass of the object. • Physicists have determined the average measure of 𝒈 near the surface of the Earth to be 9.8 m/s2 [down]. • The value of 9.8 m/s2 assumes that there are no forces other than gravity acting on an object; such as air resistance. 1.6 Acceleration Near Earth’s Surface • The value of 𝒈 varies at different locations on the Earth. Its value is based on the object’s distance from the centre of the Earth (radius). • The further an object is from the Earth’s centre (higher altitude), the lower the value of 𝒈. • Many of the high-jump, long-jump, and pole vaulting records at the 1968 Olympic Games in Mexico City were broken; attributed in part to the lower value of 𝒈. • The value of 𝒈 is different on other planets and celestial bodies. 1.6 Terminal Velocity • In real life scenarios, there will always be air resistance. • Air resistance causes objects to accelerate at values less than 𝒈. • An object undergoes terminal velocity when the force due to air resistance acting on the object, is equal to the force of gravity. • When an object reaches terminal velocity, it will fall at a constant velocity. SP #1,2 p.41 SP #1,2 p.42 1.6 Homework Practice # 1 p.41 Practice # 2 p.42 Questions #3-7 p.43
