Presentation is loading. Please wait.

Presentation is loading. Please wait.

MATH 1311 Section 6.1.

Published bySudomo Tedjo Modified over 5 years ago

Similar presentations

Presentation on theme: "MATH 1311 Section 6.1."— Presentation transcript:

1 MATH 1311 Section 6.1

2 Velocity Velocity is a vector measure. This means that is has components for magnitude (how fast) and direction (heading which way). This means that you can estimate a velocity function from a directed distance function. Positive Velocity means an object is moving up, away, or to the right. Negative Velocity means the object is moving down, towards, or the left

3 Two graphs from a rock thrown into the air:

4 Key Characteristics of Velocity

5 Constant Velocity If an object is considered to have a constant velocity (equal to a number), that means that the distance function is linear.

6 Example: You leave home at 8:00 am and travel to school. It takes you 1 hour to arrive at school and you remain there for 5 hours. Then you travel back home (also taking 1 hour). Sketch a graph to show your distance from home as a function of time. Use this graph to create a graph of your velocity for that trip.

7 Example: You leave home at 8:00 am and travel to school. It takes you 1 hour to arrive at school and you remain there for 5 hours. Then you travel back home (also taking 1 hour). Sketch a graph to show your distance from home as a function of time. Distance Time

8 Example: You leave home at 8:00 am and travel to school. It takes you 1 hour to arrive at school and you remain there for 5 hours. Then you travel back home (also taking 1 hour). Sketch a graph to show your distance from home as a function of time. Velocity Time

9 Distance given by a formula:
The height of a rock thrown from a building is given by h(t) = -16t2 + 25t where t is measured in seconds and h is measured in feet. Sketch this graph (using the calculator) and determine the t-values where the maximum height occur and where the rock hits the ground. Use this to estimate the graph of the rock’s velocity.

10 Distance given by a formula:
The height of a rock thrown from a building is given by h(t) = -16t2 + 25t where t is measured in seconds and h is measured in feet. Sketch this graph (using the calculator) and determine the t-values where the maximum height occur and where the rock hits the ground. Use this to estimate the graph of the rock’s velocity. The actual velocity formula is: v(t) = -32t Graph this as well. How does this function compare to your estimate of the rock’s velocity?

11 You leave home at 9:00 am and travel for thirty minutes
You leave home at 9:00 am and travel for thirty minutes. Then you realize that you left the oven on, so you return home at the same speed. You then travel for 1 hour to your destination, where you stay 3 hours before returning home again. Which graph would best represent your distance graph for this situation? 2. Which graph would best represent your velocity graph for this situation?

12 A B C D

Download ppt "MATH 1311 Section 6.1."

Similar presentations

Kinematics.

Kinematics.
Kinematics Position, Velocity , and Acceleration Graphs.

Kinematics Position, Velocity , and Acceleration Graphs.
ConcepTest 2.1 Walking the Dog

ConcepTest 2.1 Walking the Dog
Projectile Motion with Wind and Air Resistance

Projectile Motion with Wind and Air Resistance
Flashbacks Monday 1 Walking the Dog

Flashbacks Monday 1 Walking the Dog
5.1 Accumulated Changes Example 1: An objects travels with a velocity of 15 mph. What is the distance traveled after 4 hours t v 15 1234 Distance = area.

5.1 Accumulated Changes Example 1: An objects travels with a velocity of 15 mph. What is the distance traveled after 4 hours t v Distance = area.
Some helpful distinctions: Distance is the amount of space between two points Position is the location of an object along a real or imaginary line. Example:

Some helpful distinctions: Distance is the amount of space between two points Position is the location of an object along a real or imaginary line. Example:
Velocity and Acceleration. Definitions of Velocity and Acceleration.

Velocity and Acceleration. Definitions of Velocity and Acceleration.
Copyright © 2015 Chris J Jewell 1 Mechanics M1 (Slide Set 4) Linear Motion (Constant Acceleration) Mechanics M1.

Copyright © 2015 Chris J Jewell 1 Mechanics M1 (Slide Set 4) Linear Motion (Constant Acceleration) Mechanics M1.
Attendance! Click any number if you are here!! You just earned 3 points for coming to class!

Attendance! Click any number if you are here!! You just earned 3 points for coming to class!
Motion in one dimension

Motion in one dimension
9-4 Quadratic Equations and Projectiles

9-4 Quadratic Equations and Projectiles
10.4 Projectile Motion Fort Pulaski, GA. One early use of calculus was to study projectile motion. In this section we assume ideal projectile motion:

10.4 Projectile Motion Fort Pulaski, GA. One early use of calculus was to study projectile motion. In this section we assume ideal projectile motion:
ConcepTest Clicker Questions Chapter 2 College Physics, 7th Edition Wilson / Buffa / Lou © 2010 Pearson Education, Inc.

ConcepTest Clicker Questions Chapter 2 College Physics, 7th Edition Wilson / Buffa / Lou © 2010 Pearson Education, Inc.
Section 2.6 Quadratic Functions. y = x 2 How many real zeros does it have? How many real zeros can a quadratic function have?

Section 2.6 Quadratic Functions. y = x 2 How many real zeros does it have? How many real zeros can a quadratic function have?
Vertical Motion Problems

Vertical Motion Problems
Speed – Time Graphs. SlopeExampleInterpretation high positive value high acceleration rapid increase in speed low positive value low acceleration slow.

Speed – Time Graphs. SlopeExampleInterpretation high positive value high acceleration rapid increase in speed low positive value low acceleration slow.
So that’s what he's thinking about 3.4. Original Function 1 st Derivative 2 nd Derivative 3 rd Derivative.

So that’s what he's thinking about 3.4. Original Function 1 st Derivative 2 nd Derivative 3 rd Derivative.
Brain Teaser During the Little League baseball season, every team plays every other team in the league ten times. If there are ten teams in the league,

Brain Teaser During the Little League baseball season, every team plays every other team in the league ten times. If there are ten teams in the league,
Objective: Understanding the difference between: 1) Distance and Displacement 2) A Distance/Time Graph A Displacement/Time Graph A Position/Time Graph.

Objective: Understanding the difference between: 1) Distance and Displacement 2) A Distance/Time Graph A Displacement/Time Graph A Position/Time Graph.

Similar presentations

Ads by Google