Presentation is loading. Please wait.

Presentation is loading. Please wait.

The integration of Geometry with Applied Robotics Robotics: Fred Urquhart, University HS, Orange City, FL Geometry: Michael Chase, Deltona HS, Deltona,

Published byElmer Carroll Modified over 8 years ago

Similar presentations

Presentation on theme: "The integration of Geometry with Applied Robotics Robotics: Fred Urquhart, University HS, Orange City, FL Geometry: Michael Chase, Deltona HS, Deltona,"— Presentation transcript:

1 The integration of Geometry with Applied Robotics Robotics: Fred Urquhart, University HS, Orange City, FL Geometry: Michael Chase, Deltona HS, Deltona, FL

2 When is a circle a line? Students will demonstrate a working knowledge of the correlation between the size of a robots wheels and the distance the robot will travel when the wheels are rotated. 2

3 Simple Machines There are six simple machines that can be used to make things move. The lever, inclined plane, wheel and axle, screw, wedge, and pulley. They each have varying amounts of force required to make them effective. We will be discussing the aspects of a wheel and axle with our focus on the wheel. 3

4 There are 3 different sized foam wheels and a flexible fabric measuring tape as part of your kit. 4

5 You should measure the circumference of each wheel and record that on your worksheet. 5

6 Smallest wheel Middle wheel Largest wheel 1Circumference equals Distance Line 2Diameter (edge to edge) 3Radius (center to edge) 41 degree equals what linear distance at the circumference? (circumference/360) 6

7 Using your recorded data you should be able to predict how far the robot will travel with 1 rotation or revolution of the drive wheels. 7

8 For every 360 degrees of wheel rotation the robot travels 1 circumference of the robot’s drive wheels. 8

Download ppt "The integration of Geometry with Applied Robotics Robotics: Fred Urquhart, University HS, Orange City, FL Geometry: Michael Chase, Deltona HS, Deltona,"

Similar presentations

Mr. Johnson Perrysville Junior High Updated

Mr. Johnson Perrysville Junior High Updated
Simple Machine Test Put your name at the top of your paper. Number your paper from 1 to 10. Good Luck.

Simple Machine Test Put your name at the top of your paper. Number your paper from 1 to 10. Good Luck.
Simple Machines Chapter 6.

Simple Machines Chapter 6.
Presentation by AJ Solomonik.  A simple machine is a mechanical device that changes the direction or magnitude of a force. In general, they can be defined.

Presentation by AJ Solomonik.  A simple machine is a mechanical device that changes the direction or magnitude of a force. In general, they can be defined.
Simple Machines the six types of simple machines are the lever, wheel and axle, inclined plane, wedge, screw, and pulley.

Simple Machines the six types of simple machines are the lever, wheel and axle, inclined plane, wedge, screw, and pulley.
Simple Machines Pulley, Screw, and Wheel & Axel Pulley, Screw, and Wheel & Axel the six types of simple machines are the lever, wheel and axle, inclined.

Simple Machines Pulley, Screw, and Wheel & Axel Pulley, Screw, and Wheel & Axel the six types of simple machines are the lever, wheel and axle, inclined.
Mechanisms Simple Machines

Mechanisms Simple Machines
Inclined Plane, Wedge, and Screw

Inclined Plane, Wedge, and Screw
Diameter, Circumference, and Rotational Sensors Robotics Academy 2002. All Rights Reserved.

Diameter, Circumference, and Rotational Sensors Robotics Academy All Rights Reserved.
Foundations of Technology Mechanical Advantage

Foundations of Technology Mechanical Advantage
Vocabulary for Simple Machines Study these terms for your vocabulary test.

Vocabulary for Simple Machines Study these terms for your vocabulary test.
Mechanical Engineering. What do mechanical engineers do? Work on the design and manufacturing of anything with moving parts Mechanical engineers are typically.

Mechanical Engineering. What do mechanical engineers do? Work on the design and manufacturing of anything with moving parts Mechanical engineers are typically.
Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.

Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.
Simple Machines The six types of simple machines are:

Simple Machines The six types of simple machines are:
ENGR 107 – Introduction to Engineering

ENGR 107 – Introduction to Engineering
What Are Simple Machines?

What Are Simple Machines?
Simple Machines Machines Lever Inclined plane Pulley Screw Wedge Wheel & axle.

Simple Machines Machines Lever Inclined plane Pulley Screw Wedge Wheel & axle.
Simple Machines & Mechanical Advantage RHS Technology Education.

Simple Machines & Mechanical Advantage RHS Technology Education.
Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.

Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.
Simple Machines. Machine Machine- A tool used to make work easier.

Simple Machines. Machine Machine- A tool used to make work easier.

Similar presentations

Ads by Google