Respuesta :
The density of the bowling ball is 3.384 g/cm^3. The mass of a substance per unit of volume is its density. Density is most frequently represented by the symbol, however Latin letter D may also be used.
What is Volume?
- A closed surface or object's volume is measured in three dimensions and is expressed mathematically. Cubic measurements of volume include m3, cm3, in3, etc. The term "volume" is sometimes used to refer to "capacity."
- A three-dimensional space's occupied volume is measured. It is often numerically quantified using a variety of imperial units or SI-derived units, such as the cubic meter and liter (such as the gallon, quart, and cubic inch). The link between volume and length (cubed) is symbiotic.
- It is more common to think of a container's volume as its capacity rather than as the quantity of room it occupies. The amount of fluid (liquid or gas) that the container can hold is defined as its volume, in other words.
Therefore,
The radius of the bowling ball = 8 cm
Weight of the ball = 2722 g
Volume of the bowling ball = 4 π r^2 = 4 x 3.142 x 8 x 8 = 804.352 cm^3
Density = Mass/Volume
⇒ Density of the ball = 2722/804.352
⇒ Density = 3.384 g/cm^3
Therefore, the density of the bowling ball is 3.384 g/cm^3.
To learn more about Volume, refer to:
https://brainly.com/question/1578538
#SPJ13
The density of the bowling ball is 3.384 g/cm^3. The mass of a substance per unit of volume is its density. Density is most frequently represented by the symbol, however Latin letter D may also be used.
What is Volume?
A closed surface or object's volume is measured in three dimensions and is expressed mathematically. Cubic measurements of volume include m3, cm3, in3, etc. The term "volume" is sometimes used to refer to "capacity."
A three-dimensional space's occupied volume is measured. It is often numerically quantified using a variety of imperial units or SI-derived units, such as the cubic meter and liter (such as the gallon, quart, and cubic inch). The link between volume and length (cubed) is symbiotic.
It is more common to think of a container's volume as its capacity rather than as the quantity of room it occupies. The amount of fluid (liquid or gas) that the container can hold is defined as its volume, in other words.
Therefore,
The radius of the bowling ball = 8 cm
Weight of the ball = 2722 g
Volume of the bowling ball = 4 π r^2 = 4 x 3.142 x 8 x 8 = 804.352 cm^3
Density = Mass/Volume
⇒ Density of the ball = 2722/804.352
⇒ Density = 3.384 g/cm^3
Therefore, the density of the bowling ball is 3.384 g/cm^3.
To learn more about Volume, refer to:
brainly.com/question/1578538
#SPJ9
