Since salt and sugar dissolve into the liquid buoyancy is not applicable. Salt and sugar are dissolved by water, which means that the mater interacts with salt and sugar at a molecular level. For example: salt breaks into sodium and chloride. Water, since it is polar, arranges itself around the atoms and keeps the sodium and chloride within solution. This occurs similarly with Sugar. A more useful characteristic for these compounds in water is solubility. Solubility of a substance describes how much of that substance can be put in the water without precipitation of the substance. Sugar is less soluble than salt, which means you can put less sugar in a solution of water before it precipitates out.
Water with any added solute (salt, sugar) is more dense (heavier) than fresh water.
A sugar-water solution is denser than plain water, i.e. it weighs more per volume. Any displacement by a floating object will displace its weight in the liquid. For denser liquids, this represents a smaller volume displaced, and the object will not sink as far into the liquid.
Basically, when sugar (or any other substance) dissolves in water, it increases the density of the water. Because the density is greater, the force of buoyancy is greater as well.
This occurs because when an object is put in water, the force of buoyancy is equal to the weight of the water that is displaced (Archimedes' Principle). More density means more weight, so even though the same amount of water is displaced, when there is a dissolved substance in the water, the weight of that displaced water is greater.
This creates a stronger force of buoyancy.
Because after adding sugar a solution is formed which is not pure water; and this solution has other properties.
Salt water is more buoyant than fresh water is, because salt water is slightly more dense. -- Anything that floats in salt water will float higher than it does in fresh water. -- Anything that sinks in salt water will sink slower than it does in fresh water. -- Anything that just barely floats in salt water may possibly sink in fresh water.
Air is more buoyant than water because air is less dense than water, and everything the thing that is less dense is always more buoyant than what is more dense than it.
More volume means that the object displaces more water. The buoyant force is exactly equal to the weight of the displaced water. Or other liquid.
It depends on the state of the fluid, liquid or gas. If air is liquefied and water is turned into a gas then water will be more buoyant. At STP air is more buoyant. Water. Air is not a fluid - but it does have some fluid properties.Between the two air is more buoyant.
Increasing the salinity of fresh water makes the water denser. The denser the water the less deeply an object will sink into the water. The very saltiness of the Dead Sea, means that people can float on the surface without effort. A ship, after displacing its weight, will float higher on the ocean, than it would if sailing on fresh water.
salt water
Salt water is denser than fresh water, therefore swimmers are more buoyant.
You are more buoyant in salt water than in fresh water, so it takes less energy just to stay afloat, making it easier to swim.
Any thing from people to ships are more buoyant in freshwater than in saltwater. Buoyancy is determined by the downward and upward force of an object. Also, saltwater weighs more than freshwater, so objects are more buoyant in the heavier water.
Any thing from people to ships are more buoyant in freshwater than in saltwater. Buoyancy is determined by the downward and upward force of an object. Also, saltwater weighs more than freshwater, so objects are more buoyant in the heavier water.
Salt water is more buoyant than fresh water is, because salt water is slightly more dense. -- Anything that floats in salt water will float higher than it does in fresh water. -- Anything that sinks in salt water will sink slower than it does in fresh water. -- Anything that just barely floats in salt water may possibly sink in fresh water.
Air is more buoyant than water because air is less dense than water, and everything the thing that is less dense is always more buoyant than what is more dense than it.
I don't know about health benefits, but...You are more buoyant in salt water, but fresh water feels better on the skin. salty water is the best to swim in because if your ill every year you can swim in it and you will not be ill for a year
You put a teaspoon of sugar in the vase of flowers with the water to keep the flowers fresh
The salt water contains dissolved ions and thus it has a high density. As a result, objects are more buoyant in salt water than fresh water, and more likely to float on it.
This is because salt water is more http://wiki.answers.com/q9161824.htmlthan fresh water due to the presence of the salt. This is why it's easier to float in the ocean than a swimming pool.
The dissolved salt increases the density of the water and makes a swimmer more buoyant. They don't need to try as hard to float as they would in fresh water.