Module 11 Quiz Flashcards
Name the four fundamental forces in creation. Which two forces are really different aspects of the same force?
the gravitational force, the weak force, the strong force, and the electromagnetic force. The electromagnetic force and the weak force are really different facets of the same force
Which is the weakest of the fundamental forces? Which is the strongest?
The weakest force is the gravitational force. The strongest one is the strong force
Name the three principles of Newton’s Universal Law of Gravitation.
- All objects with mass are attracted to one another by the gravitational force.
- The gravitational force between two masses is directly proportional to the mass of each object.
- The gravitational force between two masses is inversely proportional to the square of the distance between those two objects.
The gravitational force between two objects (mass1 = 10 kg, mass2 = 6 kg) is measured when the objects are 10 centimeters apart. If the 10 kg mass is replaced with a 20 kg mass and the 6 kg mass is replaced with a 12 kg mass, how does the new gravitational force compare to the first one that was measured?
The new gravitational force, then, is 4 times larger than the old one
The gravitational force between two objects (mass1 = 10 kg, mass2 = 6 kg) is measured when the objects are 10 centimeters apart. If the distance between them is increased to 40 centimeters, how does the new gravitational attraction compare to the first one that was measured?
The new gravitational force, then, is 16 times smaller than the old one
The gravitational force between two objects (mass1 = 1 kg, mass2 = 2 kg) is measured when the objects are 12 centimeters apart. If the 1 kg mass is replaced with a 5 kg mass, the 2 kg mass is replaced with a 4 kg mass, and the distance between the objects is reduced to 4 centimeters, how does the new gravitational force compare to the first one that was measured?
The new gravitational force, then, is 90 times larger than the old one
If Venus orbits the sun because the sun exerts a gravitational force on it, what is the equal and opposite force required by Newton’s Third Law of Motion?
The equal and opposite force is the gravitational force that Venus exerts on the sun
What kind of force is necessary for circular motion? Give the definition of that force.
Centripetal force is required for circular motion
What are the three principles of circular motion?
- Circular motion requires centripetal force
- The larger the centripetal force, the faster an object travels in a circle of a given size
- At a given speed, the larger the centripetal force, the smaller the circle
In an Olympic event called the “hammer throw,” an athlete twirls a massive ball on the end of a wire. Once he gets the ball twirling very quickly, the athlete releases the wire, allowing the ball to fly straight out into the field. The person who throws the ball the farthest this way is the winner.
a. As the athlete twirls the ball faster and faster, will the wire have to apply more, less, or the same amount of centripetal force?
b. Suppose the athlete starts by gripping the wire close to the ball so the ball sweeps out a small circle. Then, keeping the speed of the ball constant, he allows some of the wire to slip through his hands so the ball sweeps out a larger and larger circle. Will the wire exert more, less, or the same amount of force as the athlete makes his adjustment?
a. more force
b. less force
What is “centrifugal force?”
It is a myth. There is no such force
In the following diagram, the ball is traveling from “A” to “B” along the path drawn. Draw the velocity of the ball and the force it experiences if it is traveling at constant speed.
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List the inner planets and the outer planets.
Inner Planets – Mercury, Venus, earth, and Mars
Outer Planets – Jupiter, Saturn, Uranus, Neptune
List the planets of the solar system from the closest to the sun to the farthest from the sun.
Mercury, Venus, earth, Mars, Jupiter, Saturn, Uranus, Neptune
List the planets that have rings.
Saturn, Uranus, Jupiter, and Neptune
