Question

to fill in the rest of the patient chart, (you might need to subtract the initial pH x value from the total mL used to change the 30.23mL to fit the required initial pH.

Answer 1

Approximately 6046 mL of the restoration solution would be required to restore the blood volume for a person with a mass of 50 kg, given the ratio and the adjusted volume.

How did we get the value?

1. Person's Mass: Mass = 50 kg

2. Blood Volume: Assuming 100 mL per 1 kg, so for a 50 kg person:
`\( 100 \, \text{mL/kg} * 50 \, \text{kg} = 5000 \, \text{mL} \)` of blood.

3. Restoration Solution Calculation: Using a ratio of 5000 mL of blood to 25 mL, and the total volume is adjusted to 30.23 mL.

Calculate the amount of restoration solution required:

`\[ \text{Amount of Restoration Solution} = \frac{\text{Blood Volume}}{\text{Ratio}} * \text{Adjusted Volume} \]`

`\[ \text{Amount of Restoration Solution} = \frac{5000 \, \text{mL}}{25 \, \text{mL}} * 30.23 \, \text{mL} \]`

`\[ \text{Amount of Restoration Solution} = 6046 \, \text{mL} \]`

So, approximately 6046 mL of the restoration solution would be required to restore the blood volume for a person with a mass of 50 kg, given the ratio and the adjusted volume.

Complete question:

To fill in the rest of the patient chart, (you might need to subtract the initial pH x value from the total mL used to change the 30.23mL to fit the required initial pH). Calculate how much Restoration Solution would be required to restore a patient's blood from the "patient trial blood", assuming the patient with a mass of 50 kg has 100ml of blood? How much restoration solution is required?