IGNORE THIS POST, I DID SOME REALLY MIXED UP STUFF, I'LL EDIT IT LATER BUT RIGHT NOW I HAVE TO LEAVE TO DO SOMETHING... LOL SORRY GUYS
Here is what I would do, which is ultimately the same the above response but more of a "step-by-step" answer. In time you'll get faster and more intuitive with this stuff and can combine or omit steps you know will cancel later.
_______________STEPS_____________________________________________________________________________________________
0. Use a conversion factor.
Unfortunately not every thing uses the same base measure, say inches to meters or Liters to cubic meters. So you'll need to memorize or look up conversions. Here we can see that D. and E. use a form of liters while the others use some form of meters. So use the conversion that 1L=1x10-3m. Which means multiplying by the ratio of these two such that the undesired unit is canceled out. Since the two are equal to each other the numbers 1L/(1x10-3) is the same as multiplying by 1. So is (1x10-3)/1L
On E. then we'd use the last version of 1 which is (1x10-3)/1L to multiply to 2.5L which would then give us the base unit we want. If you were doing D save the convert the number of the unit using step 1, and convert the prefix using step 2 then do this step 0.
1. Convert the number given into scientific notation (disregard the 10
whatever for the unit prefix).
So for a. you'd get 1.3x102 dm (THE d on meters is the unit prefix I'm referring to)
2. Convert prefix into a 10
whatever for the unit system of choice (SI for example...) and multiply to the numerical part.
Again we'll use a. So dm=10-1 which gets multiplied through to the 1.3x102. So 1.3x102 x 10-1 = 1.3x102-1 = 1.3x101. Now my measurement of volume is in a standard of cubic meters and I'd do that to each answer. But if you start with it not in a "friendly base" you'll need some sort of conversion factor before doing the above steps.
