About This Chapter
CEOE Physics - Force and the Laws of Motion - Chapter Summary
This chapter focuses on the force and motion laws and concepts you may have already covered but need to brush up on for the CEOE Physics exam. Review inertia, mass, gravity and friction, and discover the implications of Newton's laws of motion. You'll also cover cover how to determine an object's net force and to calculate for acceleration. The lessons in this chapter can assist you with:
- Providing examples of Newton's first, second and third laws of motion
- Differentiating between inertia, mass and weight
- Explaining an object's state of motion
- Defining and identifying balanced and unbalanced forces
- Drawing free-body diagrams
- Understanding net force and acceleration
- Determining the types of forces that affect objects
- Explaining free fall and air resistance, and defining mass, friction and gravity
- Understanding action and reaction force pairs, and explaining normal force
- Determining an object's net force on an inclined plane
While preparing for the CEOE Physics examination, you can review the above topics through this chapter's video lessons. They are presented by trained educators, who are also available to answer your physics questions. Refer to the written transcripts for clarification or use the video tags to re-watch parts of the video. You can take the self-assessment quizzes and the practice chapter examination to test your understanding of the material.
CEOE Physics - Force and the Laws of Motion Objectives
Study these video lessons in preparation for the CEOE Physics exam, part of the licensure process for Oklahoma physics educators. The topics covered on the CEOE Physics examination include those covered in this chapter as well as electricity and magnetism, waves, acoustics and optics, and scientific and engineering processes. The test is computer-based and consists of 80 selected-response questions. You will be given four hours to complete the examination.
1. Newton's First Law of Motion: Examples of the Effect of Force on Motion
This lesson describes Newton's first law of motion, also known as the law of inertia. The interaction between force and motion is explained. Several examples are used to discuss the implications of this law on earth and in space.
2. Distinguishing Between Inertia and Mass
Mass and inertia are both related to the amount of matter an object has, but they aren't exactly the same thing. In this video lesson, you'll see how mass affects an object's inertia, which in turn affects that object's motion.
3. Mass and Weight: Differences and Calculations
We often talk about mass and weight as if they are the same. While they are proportional to each other, they are not, in fact, the same. In this video lesson, you will learn to distinguish between the two, as well as convert one to the other.
4. State of Motion and Velocity
An object's state of motion describes how it is moving. But there are many ways we can describe motion, such as speed and velocity. This motion is relative to other objects around it, such as the earth, the sun, and even other stars in our galaxy.
5. Force: Definition and Types
Force is everywhere and it comes in a variety of sizes, directions, and types. In this video lesson, you'll identify force as well the different types of force that objects may experience.
6. Forces: Balanced and Unbalanced
Forces are needed to start or stop an object's motion, but can also be involved when an object is at rest or already traveling at constant velocity. In this video lesson, you'll identify the difference between balanced and unbalanced forces, understanding how they affect the movement of objects.
7. Free-Body Diagrams
Forces that act on an object can be drawn through special vector diagrams called free-body diagrams. In this video lesson you'll identify how to correctly represent forces in a free-body diagram through vector arrows and force labels.
8. Net Force: Definition and Calculations
Because forces are vectors, we can't simply add them up to get a total amount of force on an object. Instead, we calculate the net force, which is important to understand because it tells us about an object's state of motion.
9. Newton's Second Law of Motion: The Relationship Between Force and Acceleration
This lesson defines Newton's second law of motion. Examples are used to illustrate how unbalanced forces cause objects to accelerate. The examples are used to practice calculating acceleration and force for objects in motion.
10. Determining the Acceleration of an Object
Acceleration is a change in an object's state of motion. A few variables need to be identified to calculate an object's acceleration, but once we have those values, we can put them into a simple equation to find out how quickly or slowly an object's velocity is changing.
11. Determining the Individual Forces Acting Upon an Object
Objects constantly have forces acting on them whether they are moving or at rest. In this video lesson, you'll understand how to identify the individual forces acting on an object by reviewing the different types of forces and the use of free-body diagrams.
12. Air Resistance and Free Fall
Through experiments by Galileo and Newton, we can understand why all objects in free-fall experience the same acceleration, ''g''. We can also see why air resistance affects a falling object's velocity and how this can lead to a falling object reaching a terminal velocity.
13. Newton's Third Law of Motion: Examples of the Relationship Between Two Forces
This lesson describes Newton's third law of motion. Examples are provided to illustrate how interacting objects experience forces. The lesson explains how objects accelerate as a result of force. Applications of Newton's third law are illustrated in nature, machines, and space.
14. Identifying Action and Reaction Force Pairs
Good things often come in pairs, and forces are no exception. In this lesson you'll explore Newton's second and third laws of motion to understand how action and reaction pairs affect objects interacting with each other.
15. The Normal Force: Definition and Examples
The normal force is also called the contact force because it only exists when objects are touching. In this lesson, we will investigate what the normal force is and how to calculate it on flat and inclined surfaces.
16. Friction: Definition and Types
You experience friction all the time, and you should be glad you do! Friction helps keep stationary objects in place as well as slow moving objects down as they slide across a surface. This lesson identifies what friction is and explains the two ways we find this force on earth.
17. Inclined Planes in Physics: Definition, Facts, and Examples
If an object is not horizontal to the ground, it may be on an inclined plane. We need to adjust both the calculations and the free-body diagram when determining the net force on an object on an inclined plane. Learn how in this lesson.
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Other chapters within the OSAT Physics (CEOE) (014): Practice & Study Guide course
- CEOE Physics: Introduction to Scientific Research
- CEOE Physics: Cross-Cutting Concepts in Science
- CEOE Physics: Rotational Motion, Collisions & Conservation
- CEOE Physics: Laws of Gravitation
- CEOE Physics: Oscillations
- CEOE Physics: Fluid Mechanics
- CEOE Physics: Work, Energy & Power
- CEOE Physics: Linear & Angular Momentum
- CEOE Physics: Electrostatics
- CEOE Physics: Electromagnetism
- CEOE Physics: Circuit Overview
- CEOE Physics: Waves & Wave Motion
- CEOE Physics: Sound & Sound Waves
- CEOE Physics: Electromagnetic Waves
- CEOE Physics: Light, Mirrors & Lenses
- CEOE Physics: Kinetic Theory & Thermodynamics
- CEOE Physics: Atomic Structure & Nuclear Physics
- CEOE Physics: Quantum Physics
- OSAT Physics (CEOE) (014) Flashcards