(a) Interpretation: The given number should be converted into standard scientific notation. Concept Introduction: Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10. For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
(a) Interpretation: The given number should be converted into standard scientific notation. Concept Introduction: Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10. For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
3.125×103.
Explanation of Solution
The given measurement is 10.00032. It is equal to 3125, to convert this into scientific notation; the decimal will be shift four places to the right. The decimal will be placed after first digit, after placing the decimal, there will be three digits after the decimal. The power of 10 will be + 3 and the scientific notation will be 3.125×103.
Interpretation Introduction
(b)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.0×106.
Explanation of Solution
The given measurement is 10310−3. It is equal to 106, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus, the scientific notation will be 1.0×106.
Interpretation Introduction
(c)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.0×100.
Explanation of Solution
The given measurement is 103103. It is equal to 1, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus, the scientific notation will be 1.0×100.
Interpretation Introduction
(d)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.818×10−5.
Explanation of Solution
The given measurement is 155, 000. It is equal to 0.00001818, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus, decimal will move five digits to the right. Since, the decimal is moving right, the power of 10 will be negative. Thus, the scientific notation will be 1.818×10−5.
Interpretation Introduction
(e)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.0×107.
Explanation of Solution
The given measurement is (105)(104)(10−4)/10−2. It is equal to 107, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus, the scientific notation will be 1.0×107.
Interpretation Introduction
(f)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.0×106.
Explanation of Solution
The given measurement is 43.2(4.32×10−5). It is equal to 106, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus the scientific notation will be 1.0×106.
Interpretation Introduction
(g)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.0×10−7.
Explanation of Solution
The given measurement is (4.32×10−5)/432. It is equal to 10−7, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus the scientific notation will be 1.0×10−7.
Interpretation Introduction
(h)
Interpretation:
The given number should be converted into standard scientific notation.
Concept Introduction:
Scientific notation for a number is written in such a way that large numbers are written in small decimal form which is then multiplied by the power of 10.
For numbers less than 1, the power of 10 in scientific notation has negative exponent and for numbers greater than 1, the power is either zero or has positive exponent.
Expert Solution
Answer to Problem 14QAP
1.0×101.
Explanation of Solution
The given measurement is 1/(105)(10−6). It is equal to 101, to convert this into scientific notation; the decimal number should be written ranges from 1 to 10 thus decimal thus, the scientific notation will be 1.0×101.
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You are given four values (1.033, 4.157, 1.05, and 4.6) and asked to conduct calculations on them. You perform a series of mathematical operations using the values and make a table that includes the calculated value as displayed on your
calculator:
Mathematical operation
Value displayed by calculator
1.033 +4.157 +1.05+4.6
10.8400
1.033 x 1.05
1.08465
4.157 - 1.05
3.10700
4.157/31.0341
0.133949
4.6/31.0341
0.148224
Round each of the values displayed by the calculator to the correct number of significant figures, and place the value in the bin that correctly indicates the number of significant digits you rounded to.
Drag the appropriate items to their respective bins.
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10.8400
1.08465
3.10700
0.133949
0.148224
1 significant figure
2 significant figures
3 significant figures
4 significant figures
A student sets up the following equation to solve a problem in solution stoichiometry.
(The ? stands for a number the student is going to calculate.)
Enter the units of the student's answer.
1 mL
(+)(4+2)
mL
3
10 L
1.77
(110.05)
=
20
x10
X
3
00
5