Lesson 20 - Acceleration
... A straight line on a velocity time graph indicates constant acceleration and the slope of the line is the measure of the acceleration Does the slope of the line on your velocity time graph appear similar to any numbers we have seen in the past? ...
... A straight line on a velocity time graph indicates constant acceleration and the slope of the line is the measure of the acceleration Does the slope of the line on your velocity time graph appear similar to any numbers we have seen in the past? ...
Forces Study Guide
... 18. Arnold Strongman and Suzie Small pull on opposite ends of a rope in a tug of war. The greatest force exerted on the rope is by (assume the rope’s mass is negligible) NEWTON’S 3RD LAW a. Arnold b. Suzie c. both the same 19. You place a 7.50-kg television on a spring scale. If the scale reads 78.4 ...
... 18. Arnold Strongman and Suzie Small pull on opposite ends of a rope in a tug of war. The greatest force exerted on the rope is by (assume the rope’s mass is negligible) NEWTON’S 3RD LAW a. Arnold b. Suzie c. both the same 19. You place a 7.50-kg television on a spring scale. If the scale reads 78.4 ...
Rules for Motion Maps
... location on the position vector is approximately correct The dot represents the location at the beginning of the time period, while the arrow represents the motion about to happen during the next instant of time. If the object is stationary for more than one time period the dots should be stacked ve ...
... location on the position vector is approximately correct The dot represents the location at the beginning of the time period, while the arrow represents the motion about to happen during the next instant of time. If the object is stationary for more than one time period the dots should be stacked ve ...
Gravity
... an object in motion tends to stay in motion until a force is exerted on it. 3______________________This is the combining of two or more forces on an object. 4______________________When two forces go against each other but are not equal. 5______________________When two forces work against each other ...
... an object in motion tends to stay in motion until a force is exerted on it. 3______________________This is the combining of two or more forces on an object. 4______________________When two forces go against each other but are not equal. 5______________________When two forces work against each other ...
lab 3: newton`s second law of motion
... time. The term speed does not specify in which direction the object is moving. By contrast, the term velocity not only specifies speed, but also specifies in which direction the object is moving. Velocity is therefore a vector quantity, as explained in chapter 2 of your text, and speed is a scalar q ...
... time. The term speed does not specify in which direction the object is moving. By contrast, the term velocity not only specifies speed, but also specifies in which direction the object is moving. Velocity is therefore a vector quantity, as explained in chapter 2 of your text, and speed is a scalar q ...
p250c04
... forces on an object arise from interactions with other objects. forces are vectors the net force on an object is the vector sum of the individual forces acting on that object The inertia of an object is its resistance to changes in its motion. Mass is a measure of inertia. Inertial Frame of Referenc ...
... forces on an object arise from interactions with other objects. forces are vectors the net force on an object is the vector sum of the individual forces acting on that object The inertia of an object is its resistance to changes in its motion. Mass is a measure of inertia. Inertial Frame of Referenc ...
Semester 1 Review
... position vs. time, velocity vs. time and acceleration vs. time. Apply kinematic equations to calculate distance, time, initial or final velocities under conditions of constant acceleration. Given the initial velocity and acceleration of an object, predict the resulting motion (see page 51). Recogniz ...
... position vs. time, velocity vs. time and acceleration vs. time. Apply kinematic equations to calculate distance, time, initial or final velocities under conditions of constant acceleration. Given the initial velocity and acceleration of an object, predict the resulting motion (see page 51). Recogniz ...
Slide 1
... constant velocity, except insofar as it is acted upon by an external force. “If you leave an object alone, it has constant velocity.” ...
... constant velocity, except insofar as it is acted upon by an external force. “If you leave an object alone, it has constant velocity.” ...
What is a Force?
... An object will remain at rest unless acted upon by an “unbalanced” force. An object in motion will continue with constant speed and direction, unless acted on by an unbalanced force. This law shows how force, mass and acceleration are related as shown in the equation below: Force = mass x accelerati ...
... An object will remain at rest unless acted upon by an “unbalanced” force. An object in motion will continue with constant speed and direction, unless acted on by an unbalanced force. This law shows how force, mass and acceleration are related as shown in the equation below: Force = mass x accelerati ...
Chapter 5 PowerPoint
... An object moving in a circle of radius r with a constant speed v has an acceleration whose direction is toward the center of the circle and whose magnitude is ar = v2/r. ...
... An object moving in a circle of radius r with a constant speed v has an acceleration whose direction is toward the center of the circle and whose magnitude is ar = v2/r. ...
Section 1
... from an object, then the motion of that object would not change. This was Newton's first law of motion. In our study of motion, we need to start clarifying the concept of mass. In effect, we will find that mass is a measure of how hard it is to get an object moving. Applying a force to a light obje ...
... from an object, then the motion of that object would not change. This was Newton's first law of motion. In our study of motion, we need to start clarifying the concept of mass. In effect, we will find that mass is a measure of how hard it is to get an object moving. Applying a force to a light obje ...