2. Prefixes and Units Length conversion k m h m da m m d m c m m m Mass conversion k g h g da g g d g c g m g Volume conversion kL hL daL L dL cL mL
3.
4. 2. Place an “X” over the number of units you know. Problem: 1 c m = ____ m m X k m h m da m m d m c m m m
5. 3. Place an “O” over the number of units you want to know. Problem: 1 c m = ____ m m X O k m h m da m m d m c m m m
6. 4. Now pull out your magic bunny rabbit and hippy hop from the “X” to the “O” Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
7. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
8. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
9. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
10. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
11. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
12. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O
13. Problem: 1 c m = ____ m m k m h m da m m d m c m m m X O 5. Now rewrite the problem, and hippy hop the decimal the same number of hops in the same direction. If there is any empty spaces fill each space with a “0”. Include the decimal this time 1 c m = ___ m m 1. 0. = 10 m m
15. Problem: 1 c m = 10 m m k m h m da m m d m c m m m X O 6. Now you have the answer. To go from cm to mm takes one hippy hop to the right, therefore you hippy hop the decimal the same number of spaces in the same direction.
20. 2. Place an “X” over the number of units you know. Problem: 10 m m = ____ c m X k m h m da m m d m c m m m
21. 3. Place an “O” over the number of units you want to know. Problem: 10 m m = ____ c m O X k m h m da m m d m c m m m
22. 4. Now pull out your magic bunny rabbit and hippy hop from the “X” to the “O” Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
23. Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
24. Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
25. Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
26. Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
27. Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
28. Problem: 10 m m = __ c m k m h m da m m d m c m m m O X
29. k m h m da m m d m c m m m X O 5. Now rewrite the problem, and hippy hop the decimal the same number of hops in the same direction. If there is any empty spaces fill each space with a “0”. Include the decimal this time 10 m m = ___ c m 10. = 1.0 c m Problem: 10 m m = __ c m
30. Problem: 1 c m = 10 m m k m h m da m m d m c m m m X O 6. Now you have the answer. To go from cm to mm takes one hippy hop to the right, therefore you hippy hop the decimal the same number of spaces in the same direction.