Question

An empty erlenmeyer flask weighs 241.3 g. when filled with water (d = 1.00 g/cm3), the flask and its contents weigh 489.1 g. what is the flask's volume? how much does the flask weigh when filled with chloroform (d = 1.48 g/cm3)?

Answer 1

The flask's volume is 247.8 cm³, calculated from the difference in weight when filled with water. The flask weighs 608.04 g when filled with chloroform, determined by the flask's volume and the density of chloroform.

Explanation

To find the flask's volume, we can use the formula for density (d = m/V) where m is the mass and V is the volume. Now, we know that the density of water is 1.00 g/cm³. Since the weight of the water is 247.8 g, we can use the formula density = mass/volume to solve for the volume.

density = mass/volume ⇒ 1.00 g/cm³ = 247.8 g/volume

⇒ volume = 247.8 g / 1.00 g/cm³

= 247.8 cm³.

Since the density of water is 1.00 g/cm³, the volume of the flask is 247.8 cm³ (because density is mass per unit volume and the mass of water is equal to its volume in cm³ when the density is 1.00 g/cm³).

To find how much the flask weighs when filled with chloroform, we multiply the volume of the flask by the density of chloroform: 247.8 cm³ x 1.48 g/cm³ = 366.74 g. Then we add the mass of the empty flask:

366.74 g + 241.3 g = 608.04 g.

So the flask weighs 608.04 g when filled with chloroform.

Answer 2

• flask volume =247.8 cm³

• total weight = 608.044 g

Step-by-step explanation:

Part a.

Data Given:

weight of the flask = 241.3 g

weight of water and flask = 489.1 g

density of water = 1 g/cm³

Solution:

As we know that the volume of the Erlenmeyer flask is the volume of water that occupied by it.

for this first we have to find mass of the water in the Erlenmeyer flask

This can be calculated by the subtraction of flask's weight from the weight of flask and water.

weight of water (m) = total weight - weight of flask

put values in the above formula

weight of water (m) = 489.1 g - 241.3 g

weight of water (m) = 489.1 g - 241.3 g

weight of water (m) = 247.8 g

To find volume we will use density formula

d = m/v

rearrange the above equation to calculate volume

v = m/d . . . . . . . (1)

put values in equation 1

v = 247.8 g / 1 g/cm³

v = 247.8 cm³

The volume of the Erlenmeyer flask = 247.8 cm³

_______________

Part b.

Data Given:

density of ethanol = 1.48 g/cm³

mass of the flask when filled with ethanol = ?

Solution:

To find mass we will use density formula

d = m/v

rearrange the above equation to calculate mass

m = d x v . . . . . . . (2)

The volume of ethanol is equal to the volume of Erlenmeyer flask that is calculated in part 1

So,

Volume of ethanol = 247.8 g

Put values in formula 2

m = 1.48 g/cm³ x 247.8 g

m = 366.744 g

Now,

To calculate total mass of the flask when filled with ethanol.

total weight = weight of Erlenmeyer flask + weight of ethanol

Put the value in above equation

total weight = 366.744 g + 241.3 g

total weight = 608.044 g

So

Total weight of flask and ethanol = 608.044 g