Gravity
We travel to an indoor skydiving facility to investigate the force of gravity. Concepts such as weight, Newton's Law of Gravitation, air resistance, and terminal velocity are discussed.
We travel to an indoor skydiving facility to investigate the force of gravity. Concepts such as weight, Newton's Law of Gravitation, air resistance, and terminal velocity are discussed.
Learning Objectives
-Understand that gravity is one of the four fundamental forces in the universe.
-Calculate gravitational force by using Newton’s Law of Gravitation and the formula derived from this law for weight.
-Explain that the acceleration due to gravity on Earth is 9.8m/s2 and this number will change if you are on an object with different mass.
-Illustrate the idea that an object falling through the air will continue to accelerate until air resistance balances out gravity.
-Understand that gravity is one of the four fundamental forces in the universe.
-Calculate gravitational force by using Newton’s Law of Gravitation and the formula derived from this law for weight.
-Explain that the acceleration due to gravity on Earth is 9.8m/s2 and this number will change if you are on an object with different mass.
-Illustrate the idea that an object falling through the air will continue to accelerate until air resistance balances out gravity.
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Vocabulary
air resistance - the frictional force that air exerts on objects; also known as drag, FD. gravity (FG) - one of the four fundamental forces of the universe; it is exerted by anything that has mass on anything else that has mass. Newton’s Universal Law of Gravitation - the gravitational force between two objects increases with and is proportional to the increasing mass and decreases with the square of the distance between them. terminal velocity - when the force due to gravity equals the force due to air resistance acting on a falling object and the object stops accelerating and moves at a constant velocity. weight (w) - the force due to gravity acting on an object; equal to the mass of an object multiplied by the acceleration due to gravity on Earth. |