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CLEP General Mathematics: Powers Exponents And Roots

Subjects : clep, math

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Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. To divide powers that have the same base:
Step 1. Rewrite each number with normal decimal notation. Step 2. Complete the multiplication or division.
decrease the power-of-10 exponent by the same number of units
Step 1. Subtract the exponents (divisor from dividend) Step 2. Use the common base
1

2. When working with powers of ten and scientific notation it is often necessary to adjust the position of the decimal point in the coefficient or to change the value of the exponent. When changing one of these terms - it is important that
Step 1. Divide the coefficients of the terms
1. Make sure the terms have the same power of ten. 2. Add the coefficients 3. Assign the common power of ten
increase the power-of-10 exponent by the same number of units
change both terms in order to keep the value the same.

3. 3^0 =
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
1
the radical sign with a little 3 that indicates the cube root:
Not

4. When you move the decimal point in the coefficient to the left
1. Make sure the terms have the same power of ten. 2. Add the coefficients 3. Assign the common power of ten
increase the power-of-10 exponent by the same number of units
1
Not

5. 1 to any power is equal to
10^1
1
Not
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie

6. To find the cube root of any number - simply key in the number (the radicand) and press cube-root key. On most calculators - the cube-root function is a 2nd level function. This means you have to press the 2nd key before pressing the key for the
squared
2
10^3 10^6 10^9 10^ -3 10^ -6 10^ -9 10^0
cube-root key

7. Negative cube roots are okay ... negative square roots are
decrease the power-of-10 exponent by the same number of units
To multiply powers that have the same base:
Not
10^2

8. To multiply powers of ten:
2 x 10^9
decrease the power-of-10 exponent by the same number of units
10^3 10^6 10^9 10^ -3 10^ -6 10^ -9 10^0
1. Multiply the coefficients 2. Add the exponents

9. The cube root of a negative number is also a
change both terms in order to keep the value the same.
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
1. Make sure the terms have the same power of ten. 2. Subtract the coefficients 3. Assign the common power of ten
negative number

10. 5^1 =
5
1
exponent
When moving the decimal point to the left (dividing by 10)

11. 100 - or 1 with the decimal point moved two places to the right
2 x 10^9
10^3 10^6 10^9 10^ -3 10^ -6 10^ -9 10^0
10^2
Subtract the exponent

12. Numbers with exponents can be directly multiplied or divided only when they have the
When moving the decimal point to the left (dividing by 10)
Same base
1
0

13. There are no special rules for adding and subtracting numbers that are written with exponents.
same exponent
Not
1. Make sure the terms have the same power of ten. 2. Add the coefficients 3. Assign the common power of ten
Each number must first be converted to its ordinary decimal form - then complete the addition/subtraction operation.

14. A number with an exponent of 3 is often said to be
you have to adjust the value of the exponent in order avoid changing the actual value.
cubed
1
exponent

15. Any number with a negative exponent is equal to
1 divided by that number with a positive exponent
10^1
10^-2
Because the exponent for the base-10 must be 0 or a multiple of 3 - the coefficient cannot always be a value between -9 and 9. Instead - the coefficients for engineering notation will be between

16. Always 10 for scientific notation
2
base
Not
exponent

17. Indicates the number to be multiplied.
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
base
proper scientific
radical sign

18. A number - when multiplied by itself - is equal to a given number.
move the decimal point the same number of units to the right
Scientific notation
square root
2 x 10^9

19. Is a special form of power-of-10 notation where the exponents for the 10s must be 0 or multiples of 3. There must be 1 - 2 - or 3 digits on the left side of the decimal point.
coefficient
Engineering notation
3
decrease the value of the exponent by 1 (dividing by 10)

20. To subtract powers of ten:
10^-1
Step 1. Multiply the coefficients of the factors. The result is the coefficient of the product. Step 2. Add the exponents of the factors. The result is the exponent of the product. Of course the base of 10 remains unchanged.
1. Make sure the terms have the same power of ten. 2. Subtract the coefficients 3. Assign the common power of ten
adjust the value of the coefficient

21. When moving the decimal point to the right (multiplying by 10)
exponent
Because 4 multiplied by itself equals 16.
Are Equal
decrease the value of the exponent by 1 (dividing by 10)

22. Valid powers of 10 for engineering notation are:
0
10^3 10^6 10^9 10^ -3 10^ -6 10^ -9 10^0
change both terms in order to keep the value the same.
exponent

23. Multiplying by 10
cubed
3
Calculator square-root key
Moving the decimal point to the right

24. To add or subtract numbers written with exponents:
2 x 10^9
Scientific notation
Step 1. Rewrite each number with normal decimal notation. Step 2. Complete the multiplication or division.
cube-root key

25. Step 1: Add the exponents Step 2: Use the common base
1
Scientific notation
1
To multiply powers that have the same base:

26. Scientific notation requires there to be only
one digit to the left of the decimal point
Because the exponent for the base-10 must be 0 or a multiple of 3 - the coefficient cannot always be a value between -9 and 9. Instead - the coefficients for engineering notation will be between
a fractional decimal
1

27. = 0.01 - or 1 with the decimal point moved two places to the left.
10^-2
1. Multiply the coefficients 2. Add the exponents
Calculator square-root key
Step 1. Divide the coefficients of the terms

28. What number multiplied by itself is equal to 4? Well - 2. x 2 = 4 - so the answer is
2
1 divided by that number with a positive exponent
To multiply powers that have the same base:
3

29. To divide powers that have the same base; what do you do to the divisor from the exponent of the dividend?
decrease the value of the exponent by 1 (dividing by 10)
1. Make sure the terms have the same power of ten. 2. Add the coefficients 3. Assign the common power of ten
base
Subtract the exponent

30. A very small number such as 0.000000674 can be written with scientific notation as
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
coefficient
6.74 x 10^-7
change both terms in order to keep the value the same.

31. When working with scientific notation - you are often required to change the location of the decimal point in the coefficient - but when you move the decimal point - you must
proper scientific
square root
cubed
adjust the value of the coefficient

32. When this is exactly one digit (not including zero) to the left of the decimal point. This sometimes called the normalized form.
Because the exponent for the base-10 must be 0 or a multiple of 3 - the coefficient cannot always be a value between -9 and 9. Instead - the coefficients for engineering notation will be between
Engineering notation
Step 1. Rewrite each number with normal decimal notation. Step 2. Complete the multiplication or division.
proper scientific

33. The square root of zero is
2
itself
0
When the exponent of a power-of-10 expression is a negative integer:

34. For the 10
Step 1. Divide the coefficients of the terms
1
exponent
1. Make sure the terms have the same power of ten. 2. Subtract the coefficients 3. Assign the common power of ten

35. 0^5 =
1. Multiply the coefficients 2. Add the exponents
2 x 10^9
0
negative number

36. When you increase the value of the power-of-10 exponent
cubed
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
move the decimal point the same number of units to the left
coefficient

37. Allows you to express very large and very small numbers without using large numbers of digits and decimal places. It's all done with powers of ten.
2
same exponent
1. Multiply the coefficients 2. Add the exponents
Scientific notation

38. To multiply or divide exponent terms that do not have the same base:
exponent
Calculator square-root key
Step 1. Evaluate each term with normal decimal notation. Step 2. Complete the multiplication or division.
Step 1. Subtract the exponents (divisor from dividend) Step 2. Use the common base

39. The symbol for the square root of a number is the - a sign placed in front of an expression to denote that a root is to be extracted.
radical sign
exponent
Because the exponent for the base-10 must be 0 or a multiple of 3 - the coefficient cannot always be a value between -9 and 9. Instead - the coefficients for engineering notation will be between
0

40. Dividing by 10
10^-1
Moving the decimal point to the left
Step 1. Evaluate each term with normal decimal notation. Step 2. Complete the multiplication or division.
1 divided by that number with a positive exponent

41. 10^-1 = 0.1 - or 1 with the decimal point moved one place to the left. 10^-2 = 0.01 - or 1 with the decimal point moved two places to the left. 10^-18 represents 1 preceded by 17 zeros and a decimal point.
When the exponent of a power-of-10 expression is a negative integer:
10^-18
same exponent
2 x 10^9

42. The cube root of zero is
0
Calculator square-root key
same exponent
1. Make sure the terms have the same power of ten. 2. Subtract the coefficients 3. Assign the common power of ten

43.
proper scientific
move the decimal point the same number of units to the right
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
10^1

44. To divide powers of ten:
10^-18
Determine the number of times the original decimal has to be multiplied or divided by 10 in order to show one non-zero digit to the left of the decimal point. Multiply the normalized value by a power of 10 that will restore equality. If you multiplie
2 x 10^9
1. Divide the coefficients 2. Subtract the exponents

45. 0 to any power is equal to
0
Because 4 multiplied by itself equals 16.
Calculator square-root key
increase the power-of-10 exponent by the same number of units

46. To add powers of ten:
exponent
1. Make sure the terms have the same power of ten. 2. Add the coefficients 3. Assign the common power of ten
Because the exponent for the base-10 must be 0 or a multiple of 3 - the coefficient cannot always be a value between -9 and 9. Instead - the coefficients for engineering notation will be between
1

47. A number with an exponent of 2 is often said to be
squared
1
6.74 x 10^-7
10^-2

48. Valid powers-of-10 for engineering notation
Step 1. Multiply the coefficients of the factors. The result is the coefficient of the product. Step 2. Add the exponents of the factors. The result is the exponent of the product. Of course the base of 10 remains unchanged.
To multiply powers that have the same base:
1. Make sure the terms have the same power of ten. 2. Add the coefficients 3. Assign the common power of ten
must be multiples of 3 or 0

49. 1 to any power is equal to
1
proper scientific
itself
1 divided by that number with a positive exponent

50. When the exponents are not the same
base
a fractional decimal
rewrite one of the terms so that the exponents are equal
When the exponent of a power-of-10 expression is a negative integer:

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CLEP General Mathematics: Powers Exponents And Roots

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