SCIENTIFIC NOTATION I SCIENTIFIC NOTATION A SCIENTIFIC NOTATION IS
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Scientific Notation
Scientific Notation
I. Scientific Notation
A. Scientific Notation is used
B. Examples
1. The mass of one gold atom is .000 000 000 000 000 000 000 327 gram
2. One gram of hydrogen contains 602 000 000 000 000 000 000 000 hydrogen atoms
C. Scientists can work with very large and small numbers much more easily if they are written in scientific notation.
II. How to Use Scientific Notation
A. In scientific notation, a number is written as the product of two numbers: a coefficient and 10 raised to a power.
B. For example: The number 4,500 is written in scientific notation as 4.5 x 103.
The coefficient is 4.5. The coefficient must be a number greater than or equal to 1 and smaller than 10.
The power of 10 or exponent in this example is 3. The exponent indicates how many times the coefficient must be multiplied by 10 to equal the original number of 4,500.
C. If a number is greater than 10, the exponent will be positive and is equal to the number of places the decimal must be moved to the left to write the number in scientific notation.
D. If a number is less than 10, the exponent will be negative and is equal to the number of places the decimal must be moved to the right to write the number in scientific notation.
E. A number will have an exponent of zero if the number is equal to or greater than 1, but less than ten.
F. To write a number in scientific notation:
1) Move the decimal to the right of the first non-zero number.
2) Count how many places the decimal had to be moved.
3) If the decimal had to be moved to the right, the exponent is negative.
4) If the decimal had to be moved to the left, the exponent is positive.
G. To emphasize again: the exponent counts how many places you move the decimal to the left or right.
III. Practice Problems:
A. Express the following in scientific notation:
1) .00012 (1.2 x 10-4)
2) 1000 (1 x 103)
3) 0.01 (1 x 10-2)
4) 12 (1.2 x 101)
5) .987 (9.87 x 10-1)
6) 596 (5.96 x 102)
7) .000 000 7 (7.0 x 10-7)
8) 1,000,000 (1.0 x 106)
9) .001257 (1.26 x 10-3)
10) 987,653,000,000 (9.88 x 1011)
11) 8 (8 x 100)
B. Express the following as whole numbers or as decimals.
1) 4.9 x 102 (490)
2) 3.75 x 10-2 (.0375)
3) 5.95 x 10-4 (.000595)
4) 9.46 x 103 (9460)
5) 3.87 x 101 (38.7)
6) 7.10 x 100 (7.10)
7) 8.2 x 10-5 (.000082)
IV. Using Scientific Notation in Multiplication, Division, Addition and Subtraction
A. Rule for Multiplication:
1. When multiplying numbers written in scientific notation, multiply the first factors and add the exponents.
2. Sample problem: Multiply 3.2 x 10-3 by 2.1 x 105
Multiply 3.2 x 2.1 and add the exponents.
Answer: 6.7 x 102
B. Rule for Division:
1. Divide the numerator by the denominator and subtract the exponent in the denominator from the exponent in the numerator.
2. Sample Problem: Divide 6.4 x 106 by 1.7 x 102
Divide 6.4 by 1.7 and subtract the exponent.
Answer: 3.8 x 104
C. Rule for Addition and Subtraction:
1. To add or subtract numbers written in scientific notation, you must express them with the same power of ten.
2. Sample Problem: Add 5.8 x 103 and 2.16 x 104
Since the two numbers are not expressed as the same power of ten, one of the numbers will have to be rewritten in the same power of ten as the other.
5.8 x 103 = .58 x 104
.58 x 104 + 2.16 x 104 = 2.74 x 104
Scientific Notation
I. Scientific Notation
A. Scientific Notation is used to:
B. Examples
1. The mass of one gold atom is .000 000 000 000 000 000 000 327 gram
2. One gram of hydrogen contains 602 000 000 000 000 000 000 000 hydrogen atoms
C. Scientists can work with very large and small numbers much more easily if they are written in scientific notation.
II. How to Use Scientific Notation
A. In scientific notation, a number is written as the product of two numbers:
B. For example: The number 4,500 is written in scientific notation as ______________.
The coefficient is __________. The coefficient must be a number:
The power of 10 or exponent in this example is _____. The exponent indicates how many times the coefficient must be multiplied by 10 to equal the original number of 4,500.
C. If a number is greater than 10, the exponent will be _________ and is equal to the number of places the decimal must be moved to the _______ to write the number in scientific notation.
D. If a number is less than 10, the exponent will be __________ and is equal to the number of places the decimal must be moved to the ______ to write the number in scientific notation.
E. A number will have an exponent of zero if:
F. To write a number in scientific notation:
1.
2.
3.
4.
G. To emphasize again: the exponent counts how many places you move the decimal to the left or right.
III. Practice Problems:
A. Express the following in scientific notation:
1) .00012
2) 1000
3) 0.01
4) 12
5) .987
6) 596
7) .000 000 7
8) 1,000,000
9) .001257
10) 987,653,000,000
11) 8
B. Express the following as whole numbers or as decimals.
1) 4.9 x 102
2) 3.75 x 10-2
3) 5.95 x 10-4
4) 9.46 x 103
5) 3.87 x 101
6) 7.10 x 100
7) 8.2 x 10-5
IV. Using Scientific Notation in Multiplication, Division, Addition and Subtraction
A. Rule for Multiplication:
1. When multiplying numbers written in scientific notation:
2. Sample problem: Multiply 3.2 x 10-3 by 2.1 x 105
Multiply 3.2 x 2.1 and add the exponents.
Answer:
B. Rule for Division:
1.
2. Sample Problem: Divide 6.4 x 106 by 1.7 x 102
Divide 6.4 by 1.7 and subtract the exponent.
Answer:
C. Rule for Addition and Subtraction:
1. To add or subtract numbers written in scientific notation, you must:
2. Sample Problem: Add 5.8 x 103 and 2.16 x 104
Since the two numbers are not expressed as the same power of ten, one of the numbers will have to be rewritten in the same power of ten as the other.
Answer:
28TH MEETING OF THE INTERNATIONAL SCIENTIFIC COUNCIL FOR TRYPANOSOMIASIS
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Tags: notation i., scientific notation, notation, scientific
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