PHYS101: Introduction to Mechanics

Determine the number of significant figures in the following measurements:

1. $0.0009$
2. $15,450.0$
3. $6 \times 10^{3}$
4. $87.990$
5. $30.42$

Solution

Significant Figures in Calculations

When combining measurements with different degrees of accuracy and precision, the number of significant digits in the final answer can be no greater than the number of significant digits in the least precise measured value. There are two different rules, one for multiplication and division and the other for addition and subtraction, as discussed below.

1. For multiplication and division: The result should have the same number of significant figures as the quantity having the least significant figures entering into the calculation. For example, the area of a circle can be calculated from its radius using $A=\pi r^{2}$. Let us see how many significant figures the area has if the radius has only two—say, $r=1.2 \mathrm{~m}$. Then,

$A=\pi r^{2}=(3.1415927 \ldots) \times(1.2 \mathrm{~m})^{2}=4.5238934 \mathrm{~m}^{2}$

is what you would get using a calculator that has an eight-digit output. But because the radius has only two significant figures, it limits the calculated quantity to two significant figures or

$A=4.5 \mathrm{~m}^{2},$

even though $\pi$ is good to at least eight digits.

2. For addition and subtraction: The answer can contain no more decimal places than the least precise measurement. Suppose that you buy 7.56-kg of potatoes in a grocery store as measured with a scale with precision 0.01 kg. Then you drop off 6.052-kg of potatoes at your laboratory as measured by a scale with precision 0.001 kg. Finally, you go home and add 13.7 kg of potatoes as measured by a bathroom scale with precision 0.1 kg. How many kilograms of potatoes do you now have, and how many significant figures are appropriate in the answer? The mass is found by simple addition and subtraction:

$\begin{aligned} & 7.56 \mathrm{~kg} \\-& 6.052 \mathrm{~kg} \\ & \frac{+13.7 \quad \mathrm{~kg}}{15.208 \mathrm{~kg}}=15.2 \mathrm{~kg}. \end{aligned}$

Next, we identify the least precise measurement: 13.7 kg. This measurement is expressed to the 0.1 decimal place, so our final answer must also be expressed to the 0.1 decimal place. Thus, the answer is rounded to the tenths place, giving us 15.2 kg.

Significant Figures in this Text

In this text, most numbers are assumed to have three significant figures. Furthermore, consistent numbers of significant figures are used in all worked examples. You will note that an answer given to three digits is based on input good to at least three digits, for example. If the input has fewer significant figures, the answer will also have fewer significant figures.

Care is also taken that the number of significant figures is reasonable for the situation posed. In some topics, particularly in optics, more accurate numbers are needed and more than three significant figures will be used. Finally, if a number is exact, such as the two in the formula for the circumference of a circle, $c=2 \pi r$, it does not affect the number of significant figures in a calculation.