Document
... Force and Motion – Cause and Effect • In chapter 2 we studied motion but not its cause. • In this chapter we will look at both force and motion – the cause and effect. • We will consider Newton’s: • Newton’s three laws of motion • Newton’s law of universal gravitation • Buoyancy and momentum ...
... Force and Motion – Cause and Effect • In chapter 2 we studied motion but not its cause. • In this chapter we will look at both force and motion – the cause and effect. • We will consider Newton’s: • Newton’s three laws of motion • Newton’s law of universal gravitation • Buoyancy and momentum ...
Document
... An object in UCM is constantly changing direction, and since velocity is a vector and has direction, you could say that an object undergoing UCM has a constantly changing velocity, even if its speed remains constant. If the velocity of an object is changing, it must be accelerating. Therefore, an ob ...
... An object in UCM is constantly changing direction, and since velocity is a vector and has direction, you could say that an object undergoing UCM has a constantly changing velocity, even if its speed remains constant. If the velocity of an object is changing, it must be accelerating. Therefore, an ob ...
PowerPoint Lecture Chapter 3
... as it usually is– a force needed to keep an object moving. 4. He stated– every material object resists change to its state of motion– called ineretia 5. Led the way for Isaac Newton ...
... as it usually is– a force needed to keep an object moving. 4. He stated– every material object resists change to its state of motion– called ineretia 5. Led the way for Isaac Newton ...
Unit_3_Part_2_Centripetal_Acceleration_Notes
... Unit 3 Notes, Part 2: Centripetal (Center-Seeking) Acceleration and Uniform Circular Motion Uniform Circular Motion describes the motion of an object traveling at a constant speed on a circular path. The direction is not constant, so the object does not have a constant velocity. Therefore, it must b ...
... Unit 3 Notes, Part 2: Centripetal (Center-Seeking) Acceleration and Uniform Circular Motion Uniform Circular Motion describes the motion of an object traveling at a constant speed on a circular path. The direction is not constant, so the object does not have a constant velocity. Therefore, it must b ...
Centripetal Force
... • Weight & mass are related, but they are not the same. • Mass stays the same but weight changes as the location the object is in changes. • You weigh more on Earth than on the moon because the gravity decreases yet mass remains the same. ...
... • Weight & mass are related, but they are not the same. • Mass stays the same but weight changes as the location the object is in changes. • You weigh more on Earth than on the moon because the gravity decreases yet mass remains the same. ...
Part I
... • So far, we’ve expressed Newton’s Laws of Motion using the concepts of position, displacement, velocity, acceleration & force. • Newton’s Laws with Forces: Are quite general (macroscopic objects). In principle, they could be used to solve any dynamics problem, But, often, they are very difficult to ...
... • So far, we’ve expressed Newton’s Laws of Motion using the concepts of position, displacement, velocity, acceleration & force. • Newton’s Laws with Forces: Are quite general (macroscopic objects). In principle, they could be used to solve any dynamics problem, But, often, they are very difficult to ...
Lecture Notes
... 2. The static frictional force can point towards the center of the circle, but the kinetic frictional force opposes the direction of motion, making it very difficult to regain control of the car and continue around the curve. © 2014 Pearson Education, Inc. ...
... 2. The static frictional force can point towards the center of the circle, but the kinetic frictional force opposes the direction of motion, making it very difficult to regain control of the car and continue around the curve. © 2014 Pearson Education, Inc. ...
Forces and Motion Lab Results Example
... the car has maintained a more or less constant motion, the bubble will return to the middle of the level. b. The reason the bubble moves forward intitially is that the inertia of the liquid in the level tends to make the liquid stay in the same place as the car is accelerated forward. As the car an ...
... the car has maintained a more or less constant motion, the bubble will return to the middle of the level. b. The reason the bubble moves forward intitially is that the inertia of the liquid in the level tends to make the liquid stay in the same place as the car is accelerated forward. As the car an ...
3_Newton_s_Laws_1_2
... _____________________________________________________________ _____________________________________________________________ _____________________________________________________________ _____________________________________________________________ ____________________________________________________ ...
... _____________________________________________________________ _____________________________________________________________ _____________________________________________________________ _____________________________________________________________ ____________________________________________________ ...
07_tension1_hw
... 7. )A 3 kg decoration is suspended by a string from the ceiling inside an elevator. A) The elevator is traveling upward with a constant speed. What is the tension on the string? B) Once the elevator reaches the top floor, it accelerates at a rate of –2 m/s2 to stop. What is the tension on the string ...
... 7. )A 3 kg decoration is suspended by a string from the ceiling inside an elevator. A) The elevator is traveling upward with a constant speed. What is the tension on the string? B) Once the elevator reaches the top floor, it accelerates at a rate of –2 m/s2 to stop. What is the tension on the string ...
Chapter 4 Forces and Newton’s Laws of Motion
... Prof. Bromberg will miss Wed. Office hrs. Please email for appt. on Thurs-Fri ...
... Prof. Bromberg will miss Wed. Office hrs. Please email for appt. on Thurs-Fri ...
