Question #67e63
1 Answer
The block has a mass of
Explanation:
In order to be able to solve this problem, you need to know osmium's density, which is listed at
Now, your block can be thought of as a rectangular prism, which has a volume of
color(blue)(V_"rectangular prism" = "length" xx "height" xx "width")Vrectangular prism=length×height×width
Since osmium's density is given in grams per cubic centimeters, you'll need to convert your dimensions from inches to centimeters by using the fact that
This means that you can write
5.0color(red)(cancel(color(black)("in"))) * "2.54 cm"/(1color(red)(cancel(color(black)("in")))) = 5.0 * "2.54 cm"
You can write the volume of the block as
V = 5.0 * "2.54 cm" * 4.0 * "2.54 cm" * 4.5 * "2.54 cm"
V = 5.0 * 4.0 * 4.5 * 2.54""^3 "cm"^3
V = "1475 cm"""^3
Density is defined as mass per unit of volume
color(blue)(rho = m/V)
This means that you can determine the mass of the block by
m = rho * V = 22.57"g"/color(red)(cancel(color(black)("cm"^3))) * 1475color(red)(cancel(color(black)("cm"^3))) = "33291 g"
You need to round this off to two sig figs, the number of sig figs you have for the dimensions of the block
m = color(green)("33,000 g")
