Chapter 4 PowerPoint
... If you drop a book, the gravitational force of Earth causes the book to accelerate, whether or not Earth is actually touching it. This is an example of a field force. Field forces are exerted without contact. Forces result from interactions; thus, each force has a specific and identifiable cause cal ...
... If you drop a book, the gravitational force of Earth causes the book to accelerate, whether or not Earth is actually touching it. This is an example of a field force. Field forces are exerted without contact. Forces result from interactions; thus, each force has a specific and identifiable cause cal ...
2.2 Some Common Speeds
... An inertial frame of reference is one that is either _____________ or moving with constant _________________. A non inertial frame of reference is _____________________. CONSEQUENCES As far as Newton’s 1st law is concerned “rest” and “uniform motion” are the _________ state. You cannot perform any t ...
... An inertial frame of reference is one that is either _____________ or moving with constant _________________. A non inertial frame of reference is _____________________. CONSEQUENCES As far as Newton’s 1st law is concerned “rest” and “uniform motion” are the _________ state. You cannot perform any t ...
Physics 207: Lecture 2 Notes
... (i.e. a scalar that relates force to acceleration) (Newton’s First Law) Mass is an inherent property of an object. ...
... (i.e. a scalar that relates force to acceleration) (Newton’s First Law) Mass is an inherent property of an object. ...
PHYS 1443 – Section 501 Lecture #1
... What do you think does the term “An object is at its equilibrium” mean? The object is either at rest (Static Equilibrium) or its center of mass is moving with a constant velocity (Dynamic Equilibrium). When do you think an object is at its equilibrium? Translational Equilibrium: Equilibrium in linea ...
... What do you think does the term “An object is at its equilibrium” mean? The object is either at rest (Static Equilibrium) or its center of mass is moving with a constant velocity (Dynamic Equilibrium). When do you think an object is at its equilibrium? Translational Equilibrium: Equilibrium in linea ...
Preview Sample 1
... sampling party and states Newton’s second law as “If an object experiences a force then it will accelerate. If there are no forces acting on it then it will stand still.” Please give three examples (from class, real life or made up) which expose mistakes on his part and briefly explain how they show ...
... sampling party and states Newton’s second law as “If an object experiences a force then it will accelerate. If there are no forces acting on it then it will stand still.” Please give three examples (from class, real life or made up) which expose mistakes on his part and briefly explain how they show ...
A Force That Opposes Motio
... • Changing Velocity You can think of velocity as the rate of change of an object’s position. An object’s velocity is constant only if its speed and direction don’t change. • Combining Velocities You can combine different velocities to find the resultant velocity. The next slide shows how you can com ...
... • Changing Velocity You can think of velocity as the rate of change of an object’s position. An object’s velocity is constant only if its speed and direction don’t change. • Combining Velocities You can combine different velocities to find the resultant velocity. The next slide shows how you can com ...
Chapter 5 Section 3 Friction: A Force That Opposes
... • Changing Velocity You can think of velocity as the rate of change of an object’s position. An object’s velocity is constant only if its speed and direction don’t change. • Combining Velocities You can combine different velocities to find the resultant velocity. The next slide shows how you can com ...
... • Changing Velocity You can think of velocity as the rate of change of an object’s position. An object’s velocity is constant only if its speed and direction don’t change. • Combining Velocities You can combine different velocities to find the resultant velocity. The next slide shows how you can com ...
Powerpoint
... Parking on a Hill A. If you park on a hill with a 10 degree slope with the car held by the parking brake, what is the magnitude of the frictional force that holds your car in place? B. The coefficient of static friction between your car's wheels and the road when wet is 0.30. What is the largest an ...
... Parking on a Hill A. If you park on a hill with a 10 degree slope with the car held by the parking brake, what is the magnitude of the frictional force that holds your car in place? B. The coefficient of static friction between your car's wheels and the road when wet is 0.30. What is the largest an ...
0BJECTIVES 7
... ____ 13. The average acceleration of a car that goes from 0 m/s to 25 m/s in 8.0s is a. 0.32 m/s c. 3.1 m/s b. 0.32 m/s2 d. 3.1 m/s2 ____ 14. Which of the following does not indicate velocity? a. 14 m/s SSE b. 40 km/h toward the town square along the main street c. 80 km/h going from New York toward ...
... ____ 13. The average acceleration of a car that goes from 0 m/s to 25 m/s in 8.0s is a. 0.32 m/s c. 3.1 m/s b. 0.32 m/s2 d. 3.1 m/s2 ____ 14. Which of the following does not indicate velocity? a. 14 m/s SSE b. 40 km/h toward the town square along the main street c. 80 km/h going from New York toward ...