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Water has a density or a mass per unit volume corresponding to 1.000 g/mL at

4°C. This means that one gram of water corresponds to one milliliter of volume.
Obtain the mass of a clean, dry 100-mL graduated cylinder on the electronic
balance. Add 50 mL of deionized water to the graduated cylinder and remeasure
its mass. Calculate the mass of the water by subtracting the mass of the empty
cylinder from the mass of the cylinder plus the added water. Find the density of
water by dividing the mass of water by the volume of water. Enter the values in
the following table:
Mass of the graduated cylinder plus water (9) 72.6979
Mass of empty graduated cylinder (g)
123,5469
49.161 9
Mass of water (g)
Density of watek(g/mL)
Temperature (°C)
22.39 °C

1 Answer

6 votes

Answer:

b

Step-by-step explanation:

ason solved this problem by changing 6/4 to 1.2. He then added 1.2 to 0.68 and got 1.88.

This answer is incorrect. What did he do wrong?

User Ritesh Choudhary
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