Goal: To understand velocity Objectives: 1)To understand the difference between Speed vs. velocity 2)To understand the difference between instantaneous.

Slides:



Advertisements
Similar presentations
Motion and Force A. Motion 1. Motion is a change in position
Advertisements

Chapter 1 Force and motion.
Motion Motion Motion.
Relative and Circular Motion Mechanics Lecture 3, Slide 1 a ) Relative motion b) Centripetal acceleration.
General Physics 1, Lec 8 By/ T.A. Eleyan 1 Lecture 8 Circular Motion & Relative Velocity.
Motion 4.1 Speed and Velocity.
RELATIVE VELOCITY IN 2D. WARM UP A boat travels at a constant speed of 3 m/s on a river. The river’s current has a velocity of 2 m/s east. 1.If the boat.
MOTION.
Kinematics in Two Dimensions Chapter 3. Expectations After Chapter 3, students will:  generalize the concepts of displacement, velocity, and acceleration.
Chapter 1. Bell Work 1/4/10  Welcome Back! I hope you all enjoyed your break.  We are going to try something new with bell work this quarter. Please.
MECHANICS MECHANICS – The branch of Physics that deals with the motion of objects and the forces that change this motion. Kinematics – The motion part.
Chapter 1 Force and motion.
Motion.
Chapter 11 Motion.
Linear Motion Physics. Linear Motion Linear Motion refers to “motion in a line”. The motion of an object can be described using a number of different.
Chapter 4 MOTION.
Chapter 2 Motion. Think About It! How would you describe speed? How would you describe speed? What would you need to know to figure out speed? What would.
 Define the term motion.  Give an example of something in motion.  How do we know an object is in motion?  How do we know if we are in motion even.
Motion Movin and Groovin!. Frame of Reference Movement from a fixed point. Movement is relative to a fixed point. Is she moving towards you or away from.
Ch 2 Velocity ~Motion in One Dimension~. Scalar versus Vector Scalar – quantity that only has magnitude –In the previous slide, which is the scalar? Vector.
Acceleration & Speed How fast does it go?. Definition of Motion Event that involves a change in the position or location of something.
 Define the term motion.  Give an example of something in motion.  How do we know an object is in motion?  How do we know if we are in motion even.
NEXT WEEK HW Turn in occurring next week, along with our 2 nd quiz event. A: Fri, B: Mon LAB Due today, Turn-in date…Next time I see you.
1 Chapter (6) Circular Motion. 2 Consider an object moving at constant speed in a circle. The direction of motion is changing, so the velocity is changing.
Chapter 2: Motion in One Dimension Section 1: Displacement & Velocity.
Goal: To understand linear motions Objectives: 1)To understand the difference between Speed vs. velocity 2)To understand Acceleration 3)To understand the.
Chapter Four: Motion  4.1 Position, Speed and Velocity  4.2 Graphs of Motion  4.3 Acceleration.
Motion Notes Speed, Velocity, and Acceleration!. Motion A change in position, over time, relative to a reference point.
Goal: To projectile motions Objectives: 1)To understand freefall motions in 1 D 2)To understand freefall motions in 2D 3)To understand air drag and terminal.
Motion Chapter 2.
Ch. 4 Review Game Fun in B206! Pick up Study Guide!
Chapter 2 Motion. Think About It! How would you describe speed? How would you describe speed? What would you need to know to figure out speed? What would.
Physics Physics: The study of forces, motion and energy Motion: Change in position over time compared to a reference point Reference Point: object used.
Unit 2: Physics Chapter 3: Describing Motion.
Chapter 1. Bell Work 1/4/10  Welcome Back! I hope you all enjoyed your break.  We are going to try something new with bell work this quarter. Please.
Quiz Next Week Monday & Tuesday  The name of the COSMOS episode is the 3 rd in the series “When Knowledge Conquered Fear” com/watch?v=YHLV_Z.
Kawameeh 8 th Grade Science.  Reference Point - The starting point you chose to describe the location, or position of an object. Position - An object’s.
Goal: To understand angular motions Objectives: 1)To learn about Circular Motions 2)To learn about Rotational Inertia 3)To learn about Torque 4)To examine.
What is speed? Speed: how fast something is moving or how much distance is covered in a certain amount of time. We will discuss two types of speed: Instantaneous.
Goal: To understand linear motions Objectives: 1)To understand the relationships between Distance and velocity 2)To understand the relation ships between.
Advanced Physics Chapter 3 Kinematics in Two Dimensions; Vectors.
Speed: Average Velocity: Instantaneous Velocity:
Object’s in Motion Study Guide – Chapter 4 1.Define and explain the difference between speed and velocity. 2.Define and explain the difference between.
Kinematics – Linear Motion Topics Point of Reference Speed – Velocity - Acceleration Free Fall – How Far?, How Fast? Graph of Motion Activities Class.
Motion and Force 8SCIENCE.
1 Dimensional Motion. What you learned from you lab… Objects moving at constant velocityObjects accelerating.
Forces * Newton’s Laws And Speed. Newton’s Laws First Law - An object at rest tends to stay at rest AND an object in motion tends to stay in motion.
UNIT TWO: Motion, Force, and Energy  Chapter 4Motion  Chapter 5Force  Chapter 6Newton’s Laws of Motion  Chapter 7 Work and Energy.
Velocity and Acceleration. Motion What is motion? –A change in the position of an object over time. How do you know something has moved? –You use a reference.
Kinematics. Topic Overview Kinematics is used to analyze the motion of an object. We use terms such as displacement, distance, velocity, speed, acceleration,
2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Distance Displacement Speed Acceleration.
Chapter 4 Linear Motion. Position, Distance, and Displacement Position: being able to describe an object’s location is important when things start to.
Motion Chapter 2 Part 1 1. What kind of motion will this car undergo? 2.
Warm-up This past weekend I went to Ocean City, NJ which was a 60 mile drive and returned on Monday.” How far did I travel this weekend?”
Goal: To understand linear motions
Motion Position, Speed and Velocity Graphs of Motion Acceleration.
Chapter Four: Motion 4.1 Position, Speed and Velocity
Methods of Motion Physics I.
Unit 1 Part 5: Relative Velocity
Chapter Four: Motion 4.1 Position, Speed and Velocity
MOTION.
Speed Chapter /4/2018.
Motion.
MOTION.
S-9 Define the term motion. Give an example of something in motion.
Chapter Four: Motion 4.1 Position, Speed and Velocity
Chapter 2 Motion.
S-9 Define the term motion. Give an example of something in motion.
Chapter 4 Motion.
Chapter 4 Linear Motion.
Presentation transcript:

Goal: To understand velocity Objectives: 1)To understand the difference between Speed vs. velocity 2)To understand the difference between instantaneous velocity and average velocity 3)To understand relative velocity 4)To understand how to use velocities in multiple dimensions to solve problems

Run away speeder! A speeder who refuses to pull away. A lone cop needs to communicate with the rest of his team to catch this guy. If the cop says the speeder is on Highway 70 just past exit 25 going at a speed of 100 miles per hour, does this help much? Why or why not?

Wrong way! The cop has not told anywhere in which direction the speeder is going, only where the speeder is and how fast the speeder is moving. So, we need direction. However, once you give a direction you are no longer using speed! You are using velocity!

Velocity Velocity is a combination of speed and direction. 100 miles/hour is a speed 100 miles/hour South or 100 miles/hour SW are examples of velocity.

Quick example question A car travels north from Portland to Seattle at a constant rate of 70 miles per hour. What is the car’s speed? What is the car’s velocity? What is the net force on the car during this time (yes, I am that mean that I would remind you of a previous lecture)?

Velocity vs speed Quick question – I know it is a tough one – a car travels in a circle with constant speed. Is the acceleration on the car zero – that is to say is the velocity constant?

Three different “types” of velocity Average velocity Instantaneous velocity Constant velocity

Average Velocity? What is that? Well average velocity is: Average velocity = vector distance traveled / time Average speed = gross distance traveled / time Keep in mind that Velocity is a vector! Your turn: You drive from Seattle to Portland (which is South by 170 miles) in 4 hours. You then drive from Portland to Astoria (which is 40 miles North and 60 miles West) in 2 hours. A)What is your average speed? B)What is your average velocity (keep in vector form)?

Instantaneous Velocity This is the velocity you are traveling at some moment A snapshot if you will This could include but not be limited to: starting velocity final velocity some velocity in the middle However, you cannot use the instantaneous velocity to compute distances or average accelerations…

Constant Velocity Sometimes you will encounter a problem that has a constant velocity. You can treat this as an average velocity Quick wake up question, if you have a constant velocity what is the net force on the object?

Relative Velocity What is your current velocity?

Makes no sense Sometimes it makes no sense to compute your total overall velocity. So, you use relative velocity. That is your velocity relative to something else, or something else’s velocity relative to you.

Example You are on a train that is moving forward at a velocity of 20 m/s. A peanut vendor (yes this would seem odd to you too) sells you some peanuts and tosses you the bag of peanuts. The peanut vendor is 6 meters behind you (or a -6 m distance in the forward direction) and tosses the peanuts with an initial velocity of 6 meters forward and 4 meters per second upwards. A) How long will it take the peanuts to get to you? B) From someone outside the train how far through the air do the peanuts actually appear to travel?

Using multiple dimensions Sometimes you will have to solve a problem in one dimension before you can solve it in another. One example is a swimmer swimming across a river (not recommended) Suppose the water travels downstream at 2 m/s carrying the swimmer with it. The swimmer pushes himself or herself from one shore to another. The result is that they will have a downstream motion as well as a motion towards/away from the shore.

Example To be written on the board if time permits.

Another case A punter punts a football at a 30 degree angle This means that the ball will have some velocity in the vertical and the horizontal. Since those dimensions have different forces we will end up solving each dimension separately. For now though, lets just find the initial velocity (yes sines and cosines may be involved here): A) What is the ball’s initial vertical velocity? B) What is the ball’s initial horizontal velocity?

Conclusion We have examined velocity in its various forms. We have learned the difference between speed and velocity as well as how to find the average speed and average velocity. We have learned how to tackle velocities that are in multiple dimensions