QUESTION IMAGE
Question
calculations (make sure you add the formulas, substitutions, and labels.)
- mass: 60g, volume: 3cm³, density: ?
- mass: 72g, volume: 8cm³, density: ?
- density: 7g/cm³, volume: 9cm³, mass: ?
- density: 11g/cm³, volume: 6cm³, mass: ?
- density: 3g/cm³, mass: 21g, volume: ?
- density: 20g/cm³, mass: 400g, volume: ?
To solve these density - mass - volume problems, we use the formula for density: $
ho=\frac{m}{V}$, where $
ho$ is density, $m$ is mass, and $V$ is volume. From this formula, we can also derive $m =
ho\times V$ and $V=\frac{m}{
ho}$. We will solve each of the six problems one by one.
Problem 1: Mass = 60g, Volume = 3$cm^{3}$, Find Density
Step 1: Recall the density formula
The formula for density is $
ho=\frac{m}{V}$, where $m$ is the mass and $V$ is the volume.
Step 2: Substitute the given values
We know that $m = 60g$ and $V=3cm^{3}$. Substituting these values into the formula, we get $
ho=\frac{60g}{3cm^{3}}$.
Step 3: Calculate the density
$\frac{60}{3}=20$, so $
ho = 20g/cm^{3}$.
Problem 2: Mass = 72g, Volume = 8$cm^{3}$, Find Density
Step 1: Recall the density formula
The formula for density is $
ho=\frac{m}{V}$.
Step 2: Substitute the given values
Here, $m = 72g$ and $V = 8cm^{3}$. Substituting into the formula, we have $
ho=\frac{72g}{8cm^{3}}$.
Step 3: Calculate the density
$\frac{72}{8}=9$, so $
ho=9g/cm^{3}$.
Problem 3: Density = 7$g/cm^{3}$, Volume = 9$cm^{3}$, Find Mass
Step 1: Recall the mass formula from density
The formula for mass is $m=
ho\times V$, where $
ho$ is density and $V$ is volume.
Step 2: Substitute the given values
We know that $
ho = 7g/cm^{3}$ and $V = 9cm^{3}$. Substituting these values, we get $m=7g/cm^{3}\times9cm^{3}$.
Step 3: Calculate the mass
$7\times9 = 63$, so $m = 63g$.
Problem 4: Density = 11$g/cm^{3}$, Volume = 6$cm^{3}$, Find Mass
Step 1: Recall the mass formula from density
The formula for mass is $m=
ho\times V$.
Step 2: Substitute the given values
Given $
ho=11g/cm^{3}$ and $V = 6cm^{3}$, we substitute to get $m = 11g/cm^{3}\times6cm^{3}$.
Step 3: Calculate the mass
$11\times6=66$, so $m = 66g$.
Problem 5: Density = 3$g/cm^{3}$, Mass = 21g, Find Volume
Step 1: Recall the volume formula from density
The formula for volume is $V=\frac{m}{
ho}$, where $m$ is mass and $
ho$ is density.
Step 2: Substitute the given values
We have $m = 21g$ and $
ho=3g/cm^{3}$. Substituting into the formula, we get $V=\frac{21g}{3g/cm^{3}}$.
Step 3: Calculate the volume
$\frac{21}{3}=7$, so $V = 7cm^{3}$.
Problem 6: Density = 20$g/cm^{3}$, Mass = 400g, Find Volume
Step 1: Recall the volume formula from density
The formula for volume is $V=\frac{m}{
ho}$.
Step 2: Substitute the given values
Given $m = 400g$ and $
ho=20g/cm^{3}$, we substitute to get $V=\frac{400g}{20g/cm^{3}}$.
Step 3: Calculate the volume
$\frac{400}{20}=20$, so $V = 20cm^{3}$.
Final Answers:
- Density: $\boldsymbol{20g/cm^{3}}$
- Density: $\boldsymbol{9g/cm^{3}}$
- Mass: $\boldsymbol{63g}$
- Mass: $\boldsymbol{66g}$
- Volume: $\boldsymbol{7cm^{3}}$
- Volume: $\boldsymbol{20cm^{3}}$
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To solve these density - mass - volume problems, we use the formula for density: $
ho=\frac{m}{V}$, where $
ho$ is density, $m$ is mass, and $V$ is volume. From this formula, we can also derive $m =
ho\times V$ and $V=\frac{m}{
ho}$. We will solve each of the six problems one by one.
Problem 1: Mass = 60g, Volume = 3$cm^{3}$, Find Density
Step 1: Recall the density formula
The formula for density is $
ho=\frac{m}{V}$, where $m$ is the mass and $V$ is the volume.
Step 2: Substitute the given values
We know that $m = 60g$ and $V=3cm^{3}$. Substituting these values into the formula, we get $
ho=\frac{60g}{3cm^{3}}$.
Step 3: Calculate the density
$\frac{60}{3}=20$, so $
ho = 20g/cm^{3}$.
Problem 2: Mass = 72g, Volume = 8$cm^{3}$, Find Density
Step 1: Recall the density formula
The formula for density is $
ho=\frac{m}{V}$.
Step 2: Substitute the given values
Here, $m = 72g$ and $V = 8cm^{3}$. Substituting into the formula, we have $
ho=\frac{72g}{8cm^{3}}$.
Step 3: Calculate the density
$\frac{72}{8}=9$, so $
ho=9g/cm^{3}$.
Problem 3: Density = 7$g/cm^{3}$, Volume = 9$cm^{3}$, Find Mass
Step 1: Recall the mass formula from density
The formula for mass is $m=
ho\times V$, where $
ho$ is density and $V$ is volume.
Step 2: Substitute the given values
We know that $
ho = 7g/cm^{3}$ and $V = 9cm^{3}$. Substituting these values, we get $m=7g/cm^{3}\times9cm^{3}$.
Step 3: Calculate the mass
$7\times9 = 63$, so $m = 63g$.
Problem 4: Density = 11$g/cm^{3}$, Volume = 6$cm^{3}$, Find Mass
Step 1: Recall the mass formula from density
The formula for mass is $m=
ho\times V$.
Step 2: Substitute the given values
Given $
ho=11g/cm^{3}$ and $V = 6cm^{3}$, we substitute to get $m = 11g/cm^{3}\times6cm^{3}$.
Step 3: Calculate the mass
$11\times6=66$, so $m = 66g$.
Problem 5: Density = 3$g/cm^{3}$, Mass = 21g, Find Volume
Step 1: Recall the volume formula from density
The formula for volume is $V=\frac{m}{
ho}$, where $m$ is mass and $
ho$ is density.
Step 2: Substitute the given values
We have $m = 21g$ and $
ho=3g/cm^{3}$. Substituting into the formula, we get $V=\frac{21g}{3g/cm^{3}}$.
Step 3: Calculate the volume
$\frac{21}{3}=7$, so $V = 7cm^{3}$.
Problem 6: Density = 20$g/cm^{3}$, Mass = 400g, Find Volume
Step 1: Recall the volume formula from density
The formula for volume is $V=\frac{m}{
ho}$.
Step 2: Substitute the given values
Given $m = 400g$ and $
ho=20g/cm^{3}$, we substitute to get $V=\frac{400g}{20g/cm^{3}}$.
Step 3: Calculate the volume
$\frac{400}{20}=20$, so $V = 20cm^{3}$.
Final Answers:
- Density: $\boldsymbol{20g/cm^{3}}$
- Density: $\boldsymbol{9g/cm^{3}}$
- Mass: $\boldsymbol{63g}$
- Mass: $\boldsymbol{66g}$
- Volume: $\boldsymbol{7cm^{3}}$
- Volume: $\boldsymbol{20cm^{3}}$