Have you ever thought about asteroids?
Aron is puzzled, he knows that he will need to multiply something, but isn't sure how to do it.
In this Concept, you will learn all about how to multiply by decimal powers of ten. Then you will be able to understand Aron's dilemma and how to solve it.
In the last Concept, you learned how to use mental math to multiply by whole number powers of ten. Well, you will find that we can do the same thing with decimal powers of ten.
How does this happen when you multiply a decimal by a decimal power of ten?What changes?
When multiplying by a power of ten, we moved the decimal point to the right the same number of zeros as there was in the power of ten.
When we have what appears to be a power of ten after a decimal point, we we only move the decimal one place to the left.
.10, .100, .1000 appear to all be powers of ten, but they are actually all the same number. We can keep adding zeros in a decimal, but they still are all the same. They all equal .10.
Therefore, if you see a .1 with zeros after it, you still move the decimal point one place to the left, no matter how many zeros there are.
Try a few on your own. Find each product.
Now let's go back to Aron. His problem involves scientific notation. Scientific notation is a something that you will learn about in another Concept, but for now, you can use what you have just learned about multiplying by decimals powers of ten to help Aron solve his dilemma. Here is his question once again.
Remember that the negative 2 exponent tells us how many places to move the decimal point to the left.
This is the solution.
Here are a few vocabulary words in this Concept.
Power of ten
10, 100, 1000, 10,000 - you can think of them as multiples of ten.
a way to write decimals and numbers by writing a number sentence that shows a power of ten using an exponent.
Multiplying by a power of ten with a positive exponent means the decimal point was moved to the right.
Multiplying by a power of ten with a negative exponent means the decimal point was moved to the left.
Here is one for you to try on your own.
To solve this problem, we have to move the decimal point two places to the left. We do this because we are multiplying 6.734 times a decimal power of ten.
Here are videos for review.
James Sousa: Multiplying by Powers of Ten
James Sousa: Scientific Notation
Directions: Use mental math to multiply each decimal by a decimal power of ten.