Chapter 11 Motion.

Slides:



Advertisements
Similar presentations
Motion Chapter 11. Frame of Reference Motion must be described from a certain point of view – a frame of reference. Which way is up? Another example (begin.
Advertisements

11.2 Speed and Velocity Slow versus fast movement can be described in terms of ___________ The speed of an in-line skater is usually described in ________.
Learning objectives: Define what a vector is
Chapter 4 - Motion. Frames of Reference Is this train in motion? How do you know?
WHAT IS SPEED? Speed is how fast an object is moving relative to another object. A frame of reference is necessary to calculate speed. Speed depends on.
Distance and Displacement
Motion 11.2 Speed and Velocity
MOTION Chapter 11 How do you know something is moving?  Depends on your frame of reference.  A frame of reference is the location from which motion.
Chapter 11 - Motion.
Chapter 11: Motion.
MOTION BY MARK AND ZYAN. Section 1vocab Frame of reference – Is a system of objects that are not moving with respect to one another. Relative motion –
Ch 11 Motion. Please define these vocabulary words: Distance Speed Average speed Instantaneous speed Velocity Acceleration Free fall Constant acceleration.
INTEGRATED SCIENCE CHAPTER 11.
Ch TrueFalseStatementTrueFalse A frame of reference is objects moving with respect to one another Distance is the length between 2 points and.
Chapter 11 Motion.
Chapter 11 Motion.
 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. Frame of reference ______________________________________, a frame of reference is needed.
Pearson Prentice Hall Physical Science: Concepts in Action
Chapter 11 Page Motion.
Distance and Displacement Speed and Velocity Acceleration.
ACCELERATION Chapter 4 Acceleration A change in velocity (speed or direction)
Chapter 11 MOTION. VIDEO 34 seconds Drag Race.
Chapter 11: Motion.
SPEED, VELOCITY AND ACCELERATION Motion. Distance & Displacement.
Kinematics. Kinematics-What is it? Kinematics is the study of motion. –Motion is always defined in terms of change in location.  Locations or Positions.
CHAPTER 11 MOTION Section 1 Distance and Displacement Notes 11-1.
Distance and Displacement. Frames of Reference Whenever you describe something that is moving, you are comparing it with something that is assumed to.
Chapter 11 - Motion. Physics – The science that studies the relationship between matter and energy. 5 major areas of study in Physics: Mechanics Electricity.
Motion. Physics Science that involves matter and its motion through space and time. We just finished Chemistry: Study of the properties and behavior of.
Section 11.1, Distance and Displacement Choosing a Frame of Reference –To describe motion, one must decide what the motion is relative to. –In a moving.
Motion.
Chapter 2 Describing Motion.
Motion; Speed; Velocity; Acceleration
Motion; Speed; Velocity; Acceleration
Motion.
Introduction to Motion
Chapter 11 The Physics of Motion.
LINEAR MOTION CHAPTER 2.
Physical Science 11.1 Motion
MOTION Chapter 11.
Chapter 11, Section 2 Speed & Velocity
Belll-ringer 1 In your own words describe the difference between constant acceleration and instantaneous acceleration. Does a speedometer measure.
Motion Chapter 2.
1/26 Do Now In your own words, what do you think “physics” is?
Speed & Velocity.
11.1 Distance and Displacement
Chapter 11 Motion.
MEASURING MOTION DISPLACEMENT. SPEED. AVERAGE SPEED. VELOCITY
DESCRIBING MOTION POSTION AND MOTION.
Mr. Conkey Physical Science Ch. 11
Motion.
Motion.
Speed and Velocity.
1/29 WarM Up In your own words, what do you think “physics” is?
1/29 Warm Up In your own words, what do you think “physics” is?
Ch. 11: Motion 11.1: Distance and Displacement
S-9 Define the term motion. Give an example of something in motion.
Unit 2- Force and Motion Vocabulary- Part I.
Motion All motion is relative Name some types of motion
II. Describing Motion Motion Speed & Velocity Acceleration
Chapter 2 Motion.
S-9 Define the term motion. Give an example of something in motion.
Acceleration.
Speed, Velocity and Acceleration
Speed and Velocity Chapter 11 section 2 notes.
The rate at which velocity changes is called ________________________.
Speed and Velocity.
Motion: Distance and Displacement
Motion Measuring Motion Motion Speed & Velocity Acceleration
Presentation transcript:

Chapter 11 Motion

11.1 Distance and Displacement

Choosing a Frame of Reference To describe motion, one must state 1. the direction the object is moving 2. how fast the object is moving 3. the location of the object at a certain time

A FRAME OF REFERENCE is a system of objects that are not moving with respect to one another Ex. fly in moving car How fast an object is moving depends on the frame of reference one chooses  

RELATIVE MOTION is movement in relation to a frame of reference   Typically, the frame of reference for objects on Earth is Earth itself (the ground); usually the Earth is assumed to be still. Is it?

DISTANCE is the length of a path between two points   SI unit- meter (cm or km)

DISPLACEMENT is the direction from the starting point and the length of a straight line from the starting point to the ending point Displacement is a vector quantity

A VECTOR is a quantity that has both magnitude (size, length, amount-a number) and direction (up, down, left, right, N, S, E, W, etc.) Arrows can be used to represent vectors; the direction of the arrow represents the direction of the vector, while the size of the arrow represents the magnitude of the vector Ex. 2 km E, 4 km W; SEE FIG. 3, P. 330

The direction of a vector can be represented by the sign (+ or -); assigned arbitrarily (at random, must be consistent) Ex. 2 km E, 4 km W

The RESULTANT VECTOR is the vector sum of two or more vectors SEE FIG. 3, 4, PP. 330, 331 Vectors can be added 1. ALGEBRAICALLY-add vectors, assigning signs to directions 2. GRAPHICALLY-draw first vector (with direction), draw second vector with tail starting at head of first vector; resultant is a vector drawn from tail of first vector to head of last vector

What is the resultant of the following vectors: a. 5 km E, 8 km E   b. 10 km N, 30 km S c. 5 m left, 6 m right d. 2 m N, 5 m W

11.2 Speed and Velocity

Examples How far will a car traveling at 100 km/h travel in 2.8 h?   How long will it take the car in the example above to travel 350 km (moving at 100 km/h)? If the car takes 3 hours to travel to the next city, which is 350 km away, how fast is the car moving?

SPEED is the ratio of the distance an object moves to the amount of time the object moves; in SI base units, measured in m/s  There are two ways two ways to express speed 1. AVERAGE SPEED-computed for entire duration of trip v = d/t where v is average speed (usually in m/s), d is total distance traveled (in m), and t is total time (in s) SEE “Math Skills-Calculating Average Speed” p. 333

Ways to express speed 2. INSTANTANEOUS SPEED-rate at which an object is moving at a given moment in time Ex. speedometer SEE FIG. 6, P. 334

 VELOCITY is the speed and direction in which an object is moving; VELOCITY IS A VECTOR (magnitude and direction)   A change in velocity can be the result of a change in speed, change in direction, or both

An object moves with CONSTANT VELOCITY if it moves in a straight line at a constant speed   Since velocity is a vector, two or more velocities can be added by vector addition

A boat moves with the current of a river at a speed of 12 km/h A boat moves with the current of a river at a speed of 12 km/h. The speed of the current is 5 km/h. What is the resultant velocity of the boat relative to the riverbank? SEE FIG. 10, P. 337 The boat in the example above turns around and moves upstream at 12 km/h. What is the resultant velocity of the boat relative to the riverbank? SEE FIG. 10, P. 337 The boat in the examples above turns and moves toward the riverbank at 12 km/h. What is the resultant velocity of the boat relative to the riverbank?

11.3 Acceleration

ACCELERATION (a) is any change in velocity; includes changes in speed and/or direction. NOTE-acceleration is a vector, measured in (m/s)/s or m/s2 If an object is SLOWING DOWN called DECELERATION

An object is in FREE FALL when the movement of the object toward Earth is solely because of gravity Objects near Earth’s surface accelerate downward at the ACCELERATION DUE TO GRAVITY, g g = 9.8 m/s2

SEE FIG. 12, P. 343 If an object is dropped, after 1 s it will be traveling at 9.8 m/s downward; after 2 s it will be traveling 19.6 m/s; after 3 s it will be traveling 29.4 m/s Recall units for velocity: m/s acceleration: m/s/s or m/s2

Objects are accelerating 1. because of a change in direction Ex. carousel 2. because of a change in speed and direction Ex. roller coaster

CONSTANT ACCELERATION is a constant change in velocity; how much the velocity changes per second stays the same Does a car going from 0 to 60 mph undergo constant acceleration?

For an object with constant acceleration in a straight line a = (vf – vi)/t where a is acceleration (in m/s2), vf is final velocity (in m/s), vi is initial velocity (in m/s), and t is time (in s) Ex. SEE “MATH SKILLS-CALCULATING ACCELERATION” P. 346

Examples What is the acceleration of a car that reaches a velocity of 20 m/s in 7 s, if it starts from rest? What is the velocity of a rock dropped from a height of 50 m after 2 s?  

INSTANTANEOUS ACCELERATION is acceleration at a given instant; how fast a velocity is changing at a specific instant   SECTION 11.3 ASSESSMENT