
Newton`s Laws - AdvancedPlacementPhysicsC
... An object in motion remains in motion in a straight line and at a constant speed OR an object at rest remains at rest, UNLESS acted upon by an EXTERNAL (unbalanced) force. acc 0 F 0 The bottom line: There is NO ACCELERATION (no change in velocity) unless a force acts, but you can have MOTIO ...
... An object in motion remains in motion in a straight line and at a constant speed OR an object at rest remains at rest, UNLESS acted upon by an EXTERNAL (unbalanced) force. acc 0 F 0 The bottom line: There is NO ACCELERATION (no change in velocity) unless a force acts, but you can have MOTIO ...
Circular and Simple Harmonic Motion Test Review Sheet
... Circular and Simple Harmonic Motion Test Review Sheet 1. The time taken to complete one cycle or oscillation is called the ____________________. 2. Motion back and forth over the same path in equal intervals of time is called ____________________. 3. The number of cycles per unit of time is called t ...
... Circular and Simple Harmonic Motion Test Review Sheet 1. The time taken to complete one cycle or oscillation is called the ____________________. 2. Motion back and forth over the same path in equal intervals of time is called ____________________. 3. The number of cycles per unit of time is called t ...
The Aristotelian approach
... CONSATANT SPEED UNLESS ACTED BY AN UNBALANCED FORCE (the law of inertia) ...
... CONSATANT SPEED UNLESS ACTED BY AN UNBALANCED FORCE (the law of inertia) ...
Explaining Motion
... Galileo was the first to suggest that constantspeed, straight-line motion was just as natural as at-rest motion. This property of remaining at rest or continuing to move in a straight line at a constant speed is known as inertia. ...
... Galileo was the first to suggest that constantspeed, straight-line motion was just as natural as at-rest motion. This property of remaining at rest or continuing to move in a straight line at a constant speed is known as inertia. ...
Class #13 - Department of Physics | Oregon State University
... which one experiences the greater force magnitude? ...
... which one experiences the greater force magnitude? ...
You get to explore the possible energy transitions for Hydrogen
... a constant speed unless acted upon by an outside (net) force. • A rockets will coast in space along a straight line at constant speed. • A hockey puck glides across the ice at constant speed until it hits something ...
... a constant speed unless acted upon by an outside (net) force. • A rockets will coast in space along a straight line at constant speed. • A hockey puck glides across the ice at constant speed until it hits something ...
Review - Hingham Schools
... Be able to identify and diagram the forces on an object. Know what net force means and understand the direction it points relative to a and v for different types of motion. Know the differences between mass and weight. Be able to calculate weight given the mass and vice versa. Be able to apply Newto ...
... Be able to identify and diagram the forces on an object. Know what net force means and understand the direction it points relative to a and v for different types of motion. Know the differences between mass and weight. Be able to calculate weight given the mass and vice versa. Be able to apply Newto ...
Blank Jeopardy
... An object NOT acted on by an unbalanced force will continue to move in a straight line at a constant velocity ...
... An object NOT acted on by an unbalanced force will continue to move in a straight line at a constant velocity ...
Chapter 5 Section 2
... Name ________________________ Period ________ Date ______________________ Chapter 5:2: What is a Force? Answer the following questions. 1. Define Force. 2. Explain the difference between balanced and unbalanced forces and how each affects the motion of an object. ...
... Name ________________________ Period ________ Date ______________________ Chapter 5:2: What is a Force? Answer the following questions. 1. Define Force. 2. Explain the difference between balanced and unbalanced forces and how each affects the motion of an object. ...
Chapter 5a
... - ______________ are vectors!! Remember vector addition. - To calculate ________ force on an object you must use vector addition. ...
... - ______________ are vectors!! Remember vector addition. - To calculate ________ force on an object you must use vector addition. ...
Universal Law of Gravitation
... Universal Law of Gravitation Every object attracts every other object with a force that is directly proportional to the product of the masses of the objects and inversely proportional to the square of the distance between them. ...
... Universal Law of Gravitation Every object attracts every other object with a force that is directly proportional to the product of the masses of the objects and inversely proportional to the square of the distance between them. ...
Newton`s 1st Law of Motion
... • He instead said that all objects have the tendency to keep doing what ever they are already doing. • This tendency is called INERTIA ...
... • He instead said that all objects have the tendency to keep doing what ever they are already doing. • This tendency is called INERTIA ...
Inertia and Mass
... In each of the following situations, represent the object with a dot. Sketch all the forces acting upon the object, making the length of each vector represent the magnitude of the force. Label all forces (e.g, Fgrav, Fnorm, Fapp, Ffrict, Fair, Ftens, etc. ). Describe the net force and acceleration. ...
... In each of the following situations, represent the object with a dot. Sketch all the forces acting upon the object, making the length of each vector represent the magnitude of the force. Label all forces (e.g, Fgrav, Fnorm, Fapp, Ffrict, Fair, Ftens, etc. ). Describe the net force and acceleration. ...
Newton`s 3 Laws
... Universal Law of Gravitation explains how the planets stay in orbit around the sun. Demo—Penny on Card What forces keep the coin at rest on the note card? o Friction? o Gravity? o Both? Why didn’t the coin fly away with the card? o Did the coin’s own “stubbornness” prevent it from doing so? o ...
... Universal Law of Gravitation explains how the planets stay in orbit around the sun. Demo—Penny on Card What forces keep the coin at rest on the note card? o Friction? o Gravity? o Both? Why didn’t the coin fly away with the card? o Did the coin’s own “stubbornness” prevent it from doing so? o ...
Study Guide For Unit 6 Test
... Part 2: Name: ___________ 1. What is the weight of an object whose mass is 5 kg? ...
... Part 2: Name: ___________ 1. What is the weight of an object whose mass is 5 kg? ...