A graduated cylinder was used to measure out 5.3 mL of a sample of a liquid into a pre-weighed 100-mL beaker (mass of the beaker = 24.568 g) at 25oC. The total mass of the beaker and alcohol was 29.568 g. what is the actual volume transferred from the graduated cylinder to the beaker? (Density of the given sample of alcohol at 25oC is 0.874 g/cc.) show work!

29.568 g = mass bkr and alcohol.

-24.568 g = mass empty bkr
-----------
5.000 g = mass alcohol

Then volume = mass/density.
Substitute and solve for volume in cc.

To find the actual volume of the liquid transferred from the graduated cylinder to the beaker, we need to consider the difference in mass before and after the transfer.

1. Start by finding the mass of the liquid transferred.
- The mass of the beaker alone is given as 24.568 g, and the total mass of the beaker and alcohol after the transfer is 29.568 g.
- So, the mass of the alcohol transferred can be calculated by subtracting the mass of the beaker from the total mass:
Mass of alcohol transferred = Total mass - Mass of beaker
= 29.568 g - 24.568 g
= 5 g

2. Now, we can use the density of the alcohol at 25oC to determine its volume.
- The density is given as 0.874 g/cc.
- Density is defined as mass divided by volume, so we can rearrange the equation to solve for volume:
Volume = Mass / Density
Volume = 5 g / 0.874 g/cc
Volume ≈ 5.72 cc (rounded to two decimal places)

Hence, the actual volume of the liquid transferred from the graduated cylinder to the beaker is approximately 5.72 cc.