Teacher Notes: Move a specific distance forward
What a teacher should know when giving tasks to students
- #372
- 04 Feb 2017
What a teacher should know when giving tasks to students
So far we know how to make a turn in an arc, just like the real cars do.
Today we will see what other options our robots have for turning.
Following the Advance Light/Color sensors calibration for a minimum value for a single sensor tutorial, in this one, we continue with finding the maximum value detected by a sensor and storing this value in an array.
The most universal way to start your programs is from My Projects menu and we will cover details about that menu in the EV3 Brick.
We dispay the speed of rotation of the wheels on the brick screen. We use the math blocks to do a proper calculations from rotation to radians per second. Knowing the speed, the radiuses and the mass of the wheels we find energy in Joules accumulated in the construction.
There is no block for programming the Ultrasonic Sensor in the retail version of the LEGO Mindstorms EV3 software. In this video tutorial we will show you how you can download & import such blocks in order to use the sensor.
We calculate the number of rotatios when a gear system is involved. The driving wheel will have to do a number of rotations for the driven wheel to rotate to a desired number of degrees. In our specific case when the driven gear wheel is rotate to about 90 degrees the legs will lift the robot.
Construct two legs for both sides of the robot. The task for this video is to attach this two legs on both sides and to build a system of gears and axles that power those legs.
We will learn how to connect and disconnect LEGO cables and on which ports exactly to connect the motors.
This is how to use the display block to show images with the EV3 software.
Let's make a program that moves the robot forward and then backward.
Explanation and demonstration of the big task for the lesson.
This is a teacher's note about the math behind calculating gear ratios with for our lifting attachment. It math model we build in previous tutorials is not exactly correct and here is the explanation why.
A note why we give the challenge at the start of the lesson.
The important task before the solution. If you haven't done it already, then attach a new axle at the front of the robot and extend the construction with gear wheels and axles to reach the two legs at the two sides of the robot.
What is allowed and what is not when building without instructions.
Each palette contains programming blocks that share common purpose. We will cover most of them
There are some things to be careful about when your students work with the brick.
As an exercise try to implement the calibration of the minimum and maximum values for a single sensor.
Implement the program for array initialization.
Follow the video tutorials for initializing arrays and implement the program.
We encourage you to explore the software on your own.
Let's make a competition - there is a pole that the robot must turn around and return home.
The task in this tutorial is to execute the program 10 times and to do it yourself. If you have your attachment then use it. If you have our attachment then use it. But execute the program 10 times and make sure that it works.
Sometimes the answer that you get by calculating seems not to be right. Is it the calculation that is wrong. Probably it is not the calculation, but something is happening with the robot.