Liquid X is known to have a lower viscosity and lower surface tension than Liquid Y. Use these facts to predict the result of each experiment in the table below, if you can. experiment 30.0 mL of Liquid X are poured into a beaker, and 30.0 mL of Liquid Y are poured into an identical beaker. Stirrers in each beaker are connected to motors, and the forces Fx and Fy needed to stir each liquid at a constant rate are measured. Wax-coated particles carefully put onto the surface of Liquid X or Liquid Y will stay on the surface, if the particles are small enough. The heaviest mass of particle My and My that will stay on each liquid's surface without sinking are measured. predicted outcome Fx will be greater than F OFx will be less than Fy OFx will be equal to Fr It's impossible to predict whether Fx or Fy will be greater without more information. mx will be greater than my mx will be less than my mx will be equal to my It's impossible to predict whether my or my will be greater without more information. X 3

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Liquid X is known to have a lower viscosity and lower surface tension than Liquid Y. Use these facts to predict the result of each experiment in the table below, if you can. experiment 30.0 mL of Liquid X are poured into a beaker, and 30.0 mL of Liquid Y are poured into an identical beaker. Stirrers in each beaker are connected to motors, and the forces Fx and Fy needed to stir each liquid at a constant rate are measured. Wax-coated particles carefully put onto the surface of Liquid X or Liquid Y will stay on the surface, if the particles are small enough. The heaviest mass of particle my and my that will stay on each liquid's surface without sinking are measured. predicted outcome F will be greater than Fy Fx will be less than Fy Fx will be equal to Fy It's impossible to predict whether Fx or Fy will be greater without more information. My will be greater than my My will be less than my mx will be equal to my It's impossible to predict whether my or my will be greater without more information.