Finding Mass of a Sphere

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To find the mass of a sphere with a radius of 5.3 cm and a density of 8.15 g/cm³, the volume is calculated using the formula for the volume of a sphere, resulting in approximately 623.61 cm³. Multiplying this volume by the density gives a mass of about 5082.46 g. Initial calculations led to confusion, but the correct approach confirms the mass. The key takeaway is to use the given units without unnecessary conversions. The formula for mass remains consistent: Mass = density times volume.
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Homework Statement


A sphere of metal has a radius of 5.3 cm and a density of 8.15 g/cm3. What is the mass of the sphere? Answer in units of g.

Homework Equations


Density=mass/volume

Volume of a sphere=4/3лr^3

The Attempt at a Solution


I found the volume by multiplying 4/3 by л and 5.3 squared. I got 66.1850323. I plugged this into the formula for density, manipulated it to get mass by itself and got 539.4118513. This answer seems really unreasonable. I think I need to do some conversions but I'm not sure what to convert. I think I need to convert the radius to meters but the density is in grams/cm cubed and I need to answer in units of grams.
 
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Mass = density times volume

First, volume of a sphere is 4/3\pir^3.

Next, don't convert anything you've been given the right units for what you've been asked for. Produce a volume for the sphere in terms of cm^3, then

cm^3 * \frac{g.}{cm^3} = g.
 
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So you're saying find the volume. I got 623.6145193 cm^3. Then I multiply that by the density (8.15) to get the mass. I get 5082.458333. That doesn't seem right. XD
 
But it is. Wow. You're amazing! Thanks! XD
 
Glad to help.

Remember that the equation of finding the mass of a sphere is

Mass = density times volume
 
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