The following data were collected for determining the concentration of suspended solids in a water sample. (D= 1.01 g/mL). Express all calculated data with the correct number of significant figures.

Volume of sample (mL):
Trial 1: 25.0
trial 2: 20.0
trial 3: 50.0
trial 4: 25.0
trial 5: 20.0
trial 6: 25.0

Mass of sample (g):
Trial 1:
trial 2:
trial 3:
trial 4:
trial 5:
trial 6:
HOW DO I FIGURE OUT THE MASS OF SAMPLE?

Mass of dry solid (g):
Trial 1: 10.767
trial 2: 8.436
trial 3: 21.770
trial 4: 10.826
trial 5: 8.671
trial 6:10.942

Mass of solid/mass of sample (g/g):
Trial 1:
trial 2:
trial 3:
trial 4:
trial 5:
trial 6:
HOW DO I FIND THE MASS OF SOLID/MASS OF SAMPLE (g/g)?

PLEASE HELP!

To find the mass of the sample, you can use the formula:

mass = volume × density

Given the density (D) is 1.01 g/mL, we can find the mass of each sample for each trial:

Trial 1: mass = 25.0 mL × 1.01 g/mL = 25.25 g
Trial 2: mass = 20.0 mL × 1.01 g/mL = 20.20 g
Trial 3: mass = 50.0 mL × 1.01 g/mL = 50.50 g
Trial 4: mass = 25.0 mL × 1.01 g/mL = 25.25 g
Trial 5: mass = 20.0 mL × 1.01 g/mL = 20.20 g
Trial 6: mass = 25.0 mL × 1.01 g/mL = 25.25 g

Now, to find the mass of solid per mass of sample (g/g), we will use the formula:

mass of solid/mass of sample = mass of dry solid / mass of sample

For each trial:

Trial 1: (10.767 g) / (25.25 g) = 0.4266
Trial 2: (8.436 g) / (20.20 g) = 0.4178
Trial 3: (21.770 g) / (50.50 g) = 0.4313
Trial 4: (10.826 g) / (25.25 g) = 0.4286
Trial 5: (8.671 g) / (20.20 g) = 0.4293
Trial 6: (10.942 g) / (25.25 g) = 0.4331

So, the mass of solid per mass of sample for each trial is:

Trial 1: 0.4266 g/g
Trial 2: 0.4178 g/g
Trial 3: 0.4313 g/g
Trial 4: 0.4286 g/g
Trial 5: 0.4293 g/g
Trial 6: 0.4331 g/g

To find the mass of the sample, you can use the formula: Mass = Volume × Density.

Using this formula, you can calculate the mass of the sample for each trial as follows:

Trial 1:
Mass = Volume × Density = 25.0 mL × 1.01 g/mL = 25.25 g

Trial 2:
Mass = Volume × Density = 20.0 mL × 1.01 g/mL = 20.2 g

Trial 3:
Mass = Volume × Density = 50.0 mL × 1.01 g/mL = 50.5 g

Trial 4:
Mass = Volume × Density = 25.0 mL × 1.01 g/mL = 25.25 g

Trial 5:
Mass = Volume × Density = 20.0 mL × 1.01 g/mL = 20.2 g

Trial 6:
Mass = Volume × Density = 25.0 mL × 1.01 g/mL = 25.25 g

For the mass of solid/mass of sample (g/g), divide the mass of the dry solid by the mass of the sample for each trial:

Trial 1:
Mass of solid/mass of sample = 10.767 g / 25.25 g ≈ 0.426 g/g

Trial 2:
Mass of solid/mass of sample = 8.436 g / 20.2 g ≈ 0.417 g/g

Trial 3:
Mass of solid/mass of sample = 21.770 g / 50.5 g ≈ 0.431 g/g

Trial 4:
Mass of solid/mass of sample = 10.826 g / 25.25 g ≈ 0.429 g/g

Trial 5:
Mass of solid/mass of sample = 8.671 g / 20.2 g ≈ 0.429 g/g

Trial 6:
Mass of solid/mass of sample = 10.942 g / 25.25 g ≈ 0.433 g/g

Please note that the calculated values are rounded to the correct number of significant figures, as indicated in the question.

To find the mass of the sample, you can use the formula:

Mass of sample = Volume of sample x Density

In this case, the density (D) is given as 1.01 g/mL.

Let's calculate the mass of the sample for each trial:

Trial 1: Mass of sample = 25.0 mL x 1.01 g/mL = 25.25 g
Trial 2: Mass of sample = 20.0 mL x 1.01 g/mL = 20.20 g
Trial 3: Mass of sample = 50.0 mL x 1.01 g/mL = 50.50 g
Trial 4: Mass of sample = 25.0 mL x 1.01 g/mL = 25.25 g
Trial 5: Mass of sample = 20.0 mL x 1.01 g/mL = 20.20 g
Trial 6: Mass of sample = 25.0 mL x 1.01 g/mL = 25.25 g

Now, to find the mass of solid/mass of sample (g/g), you can use the formula:

Mass of solid/mass of sample = Mass of dry solid / Mass of sample

Using the given values for the mass of dry solid:

Trial 1: Mass of solid/mass of sample = 10.767 g / 25.25 g = 0.426 (rounded to 3 significant figures)
Trial 2: Mass of solid/mass of sample = 8.436 g / 20.20 g = 0.417 (rounded to 3 significant figures)
Trial 3: Mass of solid/mass of sample = 21.770 g / 50.50 g = 0.431 (rounded to 3 significant figures)
Trial 4: Mass of solid/mass of sample = 10.826 g / 25.25 g = 0.429 (rounded to 3 significant figures)
Trial 5: Mass of solid/mass of sample = 8.671 g / 20.20 g = 0.429 (rounded to 3 significant figures)
Trial 6: Mass of solid/mass of sample = 10.942 g / 25.25 g = 0.434 (rounded to 3 significant figures)

So the mass of solid/mass of sample for each trial would be:

Trial 1: 0.426 g/g
Trial 2: 0.417 g/g
Trial 3: 0.431 g/g
Trial 4: 0.429 g/g
Trial 5: 0.429 g/g
Trial 6: 0.434 g/g