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Sagot :
Sure, let's solve each measurement operation step by step, ensuring to express the results with the correct number of significant digits.
### 1. [tex]\( 93.4 \frac{ \text{mol} }{ \text{L} } \times 35 \text{ L} \)[/tex]
First, identify the significant digits in each measurement:
- [tex]\( 93.4 \frac{ \text{mol} }{ \text{L} } \)[/tex] has 3 significant digits.
- [tex]\( 35 \text{ L} \)[/tex] has 2 significant digits.
When multiplying, the result should be expressed in the least number of significant digits present in the operands:
[tex]\[ 93.4 \times 35 = 3269.0 \text{ mol} \][/tex]
But since we need to honor the lowest number of significant digits:
[tex]\[ 93.4 \times 35 = 3300 \text{ mol} \][/tex]
### 2. [tex]\( 103.0 \text{ m} \div 0.38 \text{ s} \)[/tex]
First, identify the significant digits in each measurement:
- [tex]\( 103.0 \text{ m} \)[/tex] has 4 significant digits.
- [tex]\( 0.38 \text{ s} \)[/tex] has 2 significant digits.
When dividing, the result should be expressed in the least number of significant digits present in the operands:
[tex]\[ 103.0 \div 0.38 = 271.052631578947368421... \text{ m/s} \][/tex]
But rounding to 2 significant digits:
[tex]\[ 103.0 \div 0.38 = 270 \text{ m/s} \][/tex]
### 3. [tex]\( 0.934 \frac{ \text{mol} }{ \text{L} } \times 3.525 \text{ L} \)[/tex]
First, identify the significant digits in each measurement:
- [tex]\( 0.934 \frac{ \text{mol} }{ \text{L} } \)[/tex] has 3 significant digits.
- [tex]\( 3.525 \text{ L} \)[/tex] has 4 significant digits.
When multiplying, the result should be expressed in the least number of significant digits present in the operands:
[tex]\[ 0.934 \times 3.525 = 3.29235 \text{ mol} \][/tex]
But rounding to 3 significant digits:
[tex]\[ 0.934 \times 3.525 = 3.29 \text{ mol} \][/tex]
To summarize:
[tex]\[ \begin{aligned} 93.4 \frac{ \text{mol} }{ \text{L} } \times 35 \text{ L} & = 3300 \text{ mol} \\ 103.0 \text{ m} \div 0.38 \text{ s} & = 271.1 \frac{ \text{m} }{ \text{s} } \\ 0.934 \frac{ \text{mol} }{ \text{L} } \times 3.525 \text{ L} & = 3.29 \text{ mol} \end{aligned} \][/tex]
### 1. [tex]\( 93.4 \frac{ \text{mol} }{ \text{L} } \times 35 \text{ L} \)[/tex]
First, identify the significant digits in each measurement:
- [tex]\( 93.4 \frac{ \text{mol} }{ \text{L} } \)[/tex] has 3 significant digits.
- [tex]\( 35 \text{ L} \)[/tex] has 2 significant digits.
When multiplying, the result should be expressed in the least number of significant digits present in the operands:
[tex]\[ 93.4 \times 35 = 3269.0 \text{ mol} \][/tex]
But since we need to honor the lowest number of significant digits:
[tex]\[ 93.4 \times 35 = 3300 \text{ mol} \][/tex]
### 2. [tex]\( 103.0 \text{ m} \div 0.38 \text{ s} \)[/tex]
First, identify the significant digits in each measurement:
- [tex]\( 103.0 \text{ m} \)[/tex] has 4 significant digits.
- [tex]\( 0.38 \text{ s} \)[/tex] has 2 significant digits.
When dividing, the result should be expressed in the least number of significant digits present in the operands:
[tex]\[ 103.0 \div 0.38 = 271.052631578947368421... \text{ m/s} \][/tex]
But rounding to 2 significant digits:
[tex]\[ 103.0 \div 0.38 = 270 \text{ m/s} \][/tex]
### 3. [tex]\( 0.934 \frac{ \text{mol} }{ \text{L} } \times 3.525 \text{ L} \)[/tex]
First, identify the significant digits in each measurement:
- [tex]\( 0.934 \frac{ \text{mol} }{ \text{L} } \)[/tex] has 3 significant digits.
- [tex]\( 3.525 \text{ L} \)[/tex] has 4 significant digits.
When multiplying, the result should be expressed in the least number of significant digits present in the operands:
[tex]\[ 0.934 \times 3.525 = 3.29235 \text{ mol} \][/tex]
But rounding to 3 significant digits:
[tex]\[ 0.934 \times 3.525 = 3.29 \text{ mol} \][/tex]
To summarize:
[tex]\[ \begin{aligned} 93.4 \frac{ \text{mol} }{ \text{L} } \times 35 \text{ L} & = 3300 \text{ mol} \\ 103.0 \text{ m} \div 0.38 \text{ s} & = 271.1 \frac{ \text{m} }{ \text{s} } \\ 0.934 \frac{ \text{mol} }{ \text{L} } \times 3.525 \text{ L} & = 3.29 \text{ mol} \end{aligned} \][/tex]
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