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The capillary length test for viscosity shows four funnels filled with water and attached to capillary tubing of various lengths. The longer the capillary tube, the slower the rate of flow of the water.
To measure relative viscosity an experiment is shown where the rate of flow of six different liquids through a Mohr pipet is determined. The experiment is set up so that the times at which the liquid reaches the 0 mL and 3 mL marks on the pipet may be observed.
To measure relative viscosity an experiment is shown where the rate of flow of six different liquids through a Mohr pipet is determined. The experiment is set up so that the times at which the liquid reaches the 0 mL and 3 mL marks on the pipet may be observed.
To measure relative viscosity an experiment is shown where the rate of flow of six different liquids through a Mohr pipet is determined. The experiment is set up so that the times at which the liquid reaches the 0 mL and 3 mL marks on the pipet may be observed.
To measure relative viscosity an experiment is shown where the rate of flow of six different liquids through a Mohr pipet is determined. The experiment is set up so that the times at which the liquid reaches the 0 mL and 3 mL marks on the pipet may be observed.
To measure relative viscosity an experiment is shown where the rate of flow of six different liquids through a Mohr pipet is determined. The experiment is set up so that the times at which the liquid reaches the 0 mL and 3 mL marks on the pipet may be observed.
To measure relative viscosity an experiment is shown where the rate of flow of six different liquids through a Mohr pipet is determined. The experiment is set up so that the times at which the liquid reaches the 0 mL and 3 mL marks on the pipet may be observed.