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Transcript
Mass Vs. Weight • Mass • The quantity of matter in an object • • Unit = kg Mass stays the same no matter where you are • Weight • The force of gravity on an object • Unit = N • Weight = mass x gravity (W = mg) Problem #1 • 1. What is the mass of a boy whose weight is 35N? W = mg m = W/g m = 35N/10m/s2 m = 3.5 kg Problem #2 • Does a 2 kg rock have twice the mass of a 1 kg rock? • Twice the inertia? • Twice the weight? • Answer: Yes, Yes, Yes Gravity • Anything that has mass is attracted by the force of gravity. • The Law of Gravitation states: Any two masses exert an attractive force on each other. • This attractive force depends on: The mass of the two forces The distance between the objects • As mass increases, the force increases • As distance decreases, the force increases Example: Earth is close enough to us and has a large enough mass that you can feel its gravitational attraction. But… Your textbook is also close, but does not have enough mass to exert an attraction that you can feel. Force Remember: • Force is a push or pull on an object. • Net Force is the total (combination) of all forces acting on an object. • Balanced forces (equilibrium) are forces that are equal in size and opposite in direction • No change in velocity • net force = zero • Unbalanced force – changes the velocity of an object because the net force is NOT equal to zero Force: • Unbalanced forces net force = 10N→ net force = 2N → • Balanced forces net force = 0 Friction • The force that opposes motion between two surfaces that are touching each other. (an opposing force) • The amount of friction depends on: • the kind of surfaces touching (what they are made of) • the force pressing the surfaces together. • Some types of friction: • Static friction -the force exerted on one surface by another when there is no motion between the two surfaces. • Kinetic friction –the force exerted on one surface by another when the two surfaces rub against each other because one or both of them are moving. Ex. sliding friction & rolling friction Air Resistance • An opposing force that acts on objects falling through the air. • The amount of air resistance depends on: • speed of the object • size of the object • shape of the object
