3. Estimate the capacity of the following
cocacola can
1 teaspoon
a water tank
Answers
awnser
1- 200 ml
2-.5 ml
3- 10 to 20 litres
Step-by-step explanation:
Regular and Diet Coke Cans in Water
Regular and Diet Coke Cans in WaterDue to the difference in density, the can with the sugar in it sinks while the diet can floats. For a further refinement, mix in a bunch of salt--the density of the salt water increases enough that the sugared coke now floats.
Regular and Diet Coke Cans in WaterDue to the difference in density, the can with the sugar in it sinks while the diet can floats. For a further refinement, mix in a bunch of salt--the density of the salt water increases enough that the sugared coke now floats.More Detailed Explanation
Regular and Diet Coke Cans in WaterDue to the difference in density, the can with the sugar in it sinks while the diet can floats. For a further refinement, mix in a bunch of salt--the density of the salt water increases enough that the sugared coke now floats.More Detailed ExplanationThe density of a can of regular soda is just over 1 gm/cc, while that of a can of diet soda is just under. This makes for a dramatic display of density differences. A 12-oz can of regular soda will sink in the same container of water in which the same brand of diet soda floats. Brand is not a factor, and only in the case of 12-oz aluminum cans does the small density difference straddle the density of water. All plastic containers sink. The reason for the behavior is the presence of 39 grams (nearly 8 teaspoons!) of sugar dissolved in the water of the regular soda. It takes a much smaller mass of aspertaine (Nutrasweet/Equal) to flavor the diet soda. The effects of the air space in the can, and the mass of the can, combine with the liquid densities to end up just over and under the density of water. This is best displayed in a transparent container of at least 4-liter capacity.