Chapter 5 Review_2014_key
... The force of gravity between two objects is 1200 N when the objects are 60 m apart. Find the force of gravity between the objects when they are 480 m apart. ...
... The force of gravity between two objects is 1200 N when the objects are 60 m apart. Find the force of gravity between the objects when they are 480 m apart. ...
Coriolis Force
... moving objects in a rotating frame of reference It deviates objects to the right (left) for anti-clockwise (clockwise) rotation The deviation vanishes at the equator and reaches its maximum at the poles ...
... moving objects in a rotating frame of reference It deviates objects to the right (left) for anti-clockwise (clockwise) rotation The deviation vanishes at the equator and reaches its maximum at the poles ...
Document
... • These forces are called action-reaction forces • The action and reaction forces act on different objects ...
... • These forces are called action-reaction forces • The action and reaction forces act on different objects ...
Multiple Choice:
... 1. No, the speed does not change. The force is perpendicular to the velocity and so only the direction of the velocity changes, not the magnitude. The force is centripetal. 2. While it is true that the acceleration due to gravity is dependent upon distance from the center of the earth, and so does t ...
... 1. No, the speed does not change. The force is perpendicular to the velocity and so only the direction of the velocity changes, not the magnitude. The force is centripetal. 2. While it is true that the acceleration due to gravity is dependent upon distance from the center of the earth, and so does t ...
Slide 1
... Net Force = Mass x Acceleration Acceleration = (Net Force) / Mass Force on an object is directly related to its Acceleration Increase Force then Acceleration will increase Decrease Force then Acceleration will decrease ...
... Net Force = Mass x Acceleration Acceleration = (Net Force) / Mass Force on an object is directly related to its Acceleration Increase Force then Acceleration will increase Decrease Force then Acceleration will decrease ...
Introduction to Forces Guided Notes
... The acceleration due to gravity on Jupiter is more than two times greater than that on Earth. How would the following quantities change on Jupiter? Show 1 = Larger on Jupiter, 2 = smaller on Jupiter, 3 = no change Your weight Your mass Your inertia ...
... The acceleration due to gravity on Jupiter is more than two times greater than that on Earth. How would the following quantities change on Jupiter? Show 1 = Larger on Jupiter, 2 = smaller on Jupiter, 3 = no change Your weight Your mass Your inertia ...
Number Name
... quantities remain the same. How would the velocity, acceleration, and force change? ...
... quantities remain the same. How would the velocity, acceleration, and force change? ...
A baseball is thrown vertically upward
... 3) Make a force diagram for the ball after being thrown but still on the way up. ...
... 3) Make a force diagram for the ball after being thrown but still on the way up. ...
forces - Cloudfront.net
... proportional to the net force acting on the object, is in the direction of the net force, and is inversely proportional to the mass of the object. (p60) ...
... proportional to the net force acting on the object, is in the direction of the net force, and is inversely proportional to the mass of the object. (p60) ...
Force Diagrams
... 3. Draw a dot to represent the object of interest. 4. Draw a vector to represent each force. Draw it in the direction the force is being exerted, and label it by (a) the type of force, (b) the object exerting the force, and (c) the object receiving the force (which will be you object of interest). 5 ...
... 3. Draw a dot to represent the object of interest. 4. Draw a vector to represent each force. Draw it in the direction the force is being exerted, and label it by (a) the type of force, (b) the object exerting the force, and (c) the object receiving the force (which will be you object of interest). 5 ...
Circular Motion
... about? about? dcircle at all points changing notPERIOD magnitude v in direction but CIRCUMFERENCE (T) ...
... about? about? dcircle at all points changing notPERIOD magnitude v in direction but CIRCUMFERENCE (T) ...
PHYSICS 51: Introduction
... Simply stated—“objects at rest tend to stay at rest, objects in motion stay in motion.” More properly, “A body acted on by no net force moves with constant (or zero) velocity and zero acceleration.” ...
... Simply stated—“objects at rest tend to stay at rest, objects in motion stay in motion.” More properly, “A body acted on by no net force moves with constant (or zero) velocity and zero acceleration.” ...
Newton`s Second Law
... 15. An applied force of 50 N is used to accelerate an object to the right across a frictional surface. The object encounters 10 N of friction. Use the diagram to determine the normal force, the net force, the mass, and the acceleration of the object. (Neglect air resistance.) ...
... 15. An applied force of 50 N is used to accelerate an object to the right across a frictional surface. The object encounters 10 N of friction. Use the diagram to determine the normal force, the net force, the mass, and the acceleration of the object. (Neglect air resistance.) ...
Dynamics of Uniform Circular Motion π
... ⇒ An object in uniform circular motion is accelerating because its direction is constantly changing. Period (T): time for one complete revolution Speed: v = ...
... ⇒ An object in uniform circular motion is accelerating because its direction is constantly changing. Period (T): time for one complete revolution Speed: v = ...
The Physics of Orbits
... then there must be a Force that makes it do so. The force that does this is called a Centripetal Force and the amount needed is given by: (copy formula) Notice that force must be greater when the velocity is greater or if the turn is sharper That is… When the radius is smaller! ...
... then there must be a Force that makes it do so. The force that does this is called a Centripetal Force and the amount needed is given by: (copy formula) Notice that force must be greater when the velocity is greater or if the turn is sharper That is… When the radius is smaller! ...
Name: Notes - 4.3 Newton`s Second Law of Motion: Concept of a
... B. What is the weight of a 1.0 kg mass on Earth? C. What is the weight of a 1.0 kg mass on the Moon? 10. What is the difference between mass and weight? 11. Bathroom Scales A. What do bathroom scales measure? Mass or Weight? B. Would the bathroom scale reading change if you were on the Moon? How? 12 ...
... B. What is the weight of a 1.0 kg mass on Earth? C. What is the weight of a 1.0 kg mass on the Moon? 10. What is the difference between mass and weight? 11. Bathroom Scales A. What do bathroom scales measure? Mass or Weight? B. Would the bathroom scale reading change if you were on the Moon? How? 12 ...
P5.28 (p.138)
... The mass of an object is the amount of matter (stuff) in that object. It is the same for a given object everywhere in the Universe. Mass is also called inertia because it resists being moved. ...
... The mass of an object is the amount of matter (stuff) in that object. It is the same for a given object everywhere in the Universe. Mass is also called inertia because it resists being moved. ...