The design has 2 motors back to back with two touch sensors at the front and a sound sensor.
___________________________________________________________________________________________________
Math
8.3 Rotations over 16s8.3xC
D=2.1
C=6.594
8.3x6.594=54.7302
54.7302/16=3.42
D=2.1
C=6.594
8.3x6.594=54.7302
54.7302/16=3.42
Reflections
The things I needed to know in order to do this experiment are simple. First I needed to know some basic math on calculating the time it would take for two robots to collide. Also I need to know how to program and build a robot to go strait on the command of voice, and record that information in investigator.
The steps are: to design and build a robot. Have it go straight on power level 3/5 and figure out how fast it goes using investigator and measuring the circumference of the wheel. Then math a mathematically solve when the two robots will collide.
We are looking to see if our math is correct and that we can figure out when tow robots collide based on math and physics.
I learned that u can figure out the number of spins a motor does using investigator.
If I were to do this project differently I would have a longer track and one robot that goes power level 4 and power level 1, just so there would be a greater difference in the distance of both robots.
The steps are: to design and build a robot. Have it go straight on power level 3/5 and figure out how fast it goes using investigator and measuring the circumference of the wheel. Then math a mathematically solve when the two robots will collide.
We are looking to see if our math is correct and that we can figure out when tow robots collide based on math and physics.
I learned that u can figure out the number of spins a motor does using investigator.
If I were to do this project differently I would have a longer track and one robot that goes power level 4 and power level 1, just so there would be a greater difference in the distance of both robots.