T+100+180+270+110

Two equations: Circumference || Solving the equation above for "Turn Distance." Step 1: On the left, divide the top by the bottom. (Note the answer will be less than one.) Step 2: Multiply (both sides of the equation) by the Turn Circle Circumference.
 * __Turn Degrees__ ||  || = ||   || __Turn Distance__ ||   ||   ||   ||   ||
 * 360 Degrees ||  ||   ||   || Turn Circle

Solving the equation above for "Rotations." 1 Step: Divide the distance by "Wheel Circumference."
 * __Distance__ ||  || = ||   || __Wheel Circumference__ ||   || X ||   || __Rotations__ ||
 * 1 ||  ||   ||   || 1 ||   ||   ||   || 1 ||

Copy and past the numbered items below to a page called "Turns 100 180."

1. How many rotations must be entered in to the duration spot of one wheel to turn the REMBot exactly 100 degrees? a. Copy and paste the correct formula to use for determining Turn Distance. Put the correct numbers in the correct places in the formula/equation.

b. Solve the equation for Turn Distance and write your answer below. .............. = Turn Distance

c. Copy and paste the correct formula to use for determining Rotations. Put the correct numbers in the correct places in the formula/equation.

d. Solve the equation for Rotations and write your answer below. .............. = Rotations

2. How many rotations must be entered in to the duration spot of one wheel to turn the REMBot exactly 180 degrees? a. Copy and paste the correct formula to use for determining Turn Distance. Put the correct numbers in the correct places in the formula/equation.

b. Solve the equation for Turn Distance and write your answer below. .............. = Turn Distance

c. Copy and paste the correct formula to use for determining Rotations. Put the correct numbers in the correct places in the formula/equation.

d. Solve the equation for Rotations and write your answer below. .............. = Rotations

3. Using previous calculations. a. Number of rotations needed for a 90 degree turn = ...........

b. Number of rotations needed for a 10 degree turn = ...........

c. Adding the answers to 3a and 3b together = ...........

d. Is the answer to 3c more than, less than, or equal to answer 1D above?

e. Can the rotations for a 90 degree turn and 10 degree turn be added together to give the rotations for a 100 degree turn?

4. Using previous calculations. a. Number of rotations needed for a 90 degree turn = ...........

b. Number of rotations needed for a 90 degree turn x 2 = ...........

c. The rotations required to make a 180 degree turn = ...........

d. Is the answer to 4b more than, less than, or equal to answer 4c?

e. Could the rotations for a 90 degree multiplied by two to give the rotations for a 180 degree turn?

5. How many rotations are needed to make the robot turn 270 degrees?

6. How many rotations are needed to make a robot turn 110 degrees?

7. How many rotations are needed to make a robot turn 80 degrees?