Wiki User
∙ 12y agoJ
Wiki User
∙ 12y agoThe appropriate number of significant figures to use in expressing the result of 51.6 x 3.1416 is three. This is because the factors each have three significant figures, so the result should also have three significant figures. The answer would be 162.
4 significant figures.
There are 3 significant figures in 94.2.
101330 has 6 significant figures.
4487 has four significant figures.
4 significant figures.
significant figures.
4 of them.
all non zero digits are significant .2.zeroes betweenother significant.
The answer will usually depend on the number of significant figures in the numbers from which there numbers were derived.
3 significant figures. (The zero after the 5 doesn't count.) 4 significant figures if the zero after the 5 does count. A good way of expressing three thousand four hundred fifty with three, four, or five significant figures is with scientific notation: 3.45 * 103 3.450 * 103 3.4500 * 103
6.5211 x 104 = 678.1944 678.1944 has 7 significant figures
1mile =1.609km=1609m
1. All non-zero digits are always significant. 2. Zeroes between other significant figures are significant. 3. Trailing zeroes without a decimal point are not significant. 4. Trailing zeroes after a decimal point are significant. 5. Leading zeroes that come before a non-zero number are not significant. 1. 2598 has four significant figures. 2. 25005 has five significant figures. 3. 160 has two significant figures. 4. 45.800 has five significant figures. 5. 00.00589 has three significant figures.
4 significant figures.
There are 4 significant figures in 0.0032. Seems to be only 2 significant figures in this number.
There are 3 significant figures in 94.2.
Significant figures are important for indicating the precision and reliability of a measurement. They help communicate the level of uncertainty in a measurement and ensure the appropriate level of precision in calculations. Following rules for significant figures helps maintain accuracy in scientific calculations and reporting.