Fresh water is less dense than salt water because it has fewer dissolved ions. This difference in density causes fresh water to float on top of salt water, creating distinct layers. Salt water is more concentrated with ions, making it denser and causing it to sink below the less dense fresh water.
Ships sink more in fresh water than in salt water because fresh water is less dense than salt water. This means that a ship will displace less water in fresh water compared to salt water, leading to less buoyancy and a higher likelihood of sinking. Additionally, fresh water lacks the buoyant force provided by dissolved salts in salt water.
Fresh water is less dense than salt water, so it floats on top of the more dense salt water. This is due to differences in their salinity levels, with salt water being more concentrated. The less dense fresh water sits above the denser salt water due to the principle of buoyancy.
A ship sinks more in fresh water because fresh water is less dense than salt water due to the lack of salt minerals. This decreased density results in less buoyant force pushing up on the ship, causing it to sink lower into the water compared to salt water.
Sea water is more dense than fresh water because it contains dissolved salts, minerals, and other substances that increase its mass without significantly increasing its volume. This increased mass causes sea water to be more dense than fresh water, which has a lower concentration of dissolved substances.
Salt
fresh water, because salt water is more dense
Fresh water is less dense than salt water because it has fewer dissolved ions. This difference in density causes fresh water to float on top of salt water, creating distinct layers. Salt water is more concentrated with ions, making it denser and causing it to sink below the less dense fresh water.
Ships sink more in fresh water than in salt water because fresh water is less dense than salt water. This means that a ship will displace less water in fresh water compared to salt water, leading to less buoyancy and a higher likelihood of sinking. Additionally, fresh water lacks the buoyant force provided by dissolved salts in salt water.
Fresh water is less dense than salt water, so it floats on top of the more dense salt water. This is due to differences in their salinity levels, with salt water being more concentrated. The less dense fresh water sits above the denser salt water due to the principle of buoyancy.
Salt water is more dense than fresh water. A ship would float higher at sea, and lower on a fresh water inland lake.
A ship sinks more in fresh water because fresh water is less dense than salt water due to the lack of salt minerals. This decreased density results in less buoyant force pushing up on the ship, causing it to sink lower into the water compared to salt water.
Sea water is more dense than fresh water because it contains dissolved salts, minerals, and other substances that increase its mass without significantly increasing its volume. This increased mass causes sea water to be more dense than fresh water, which has a lower concentration of dissolved substances.
Seawater because it contains salt which makes the water more dense than water which does not contain salt.
Salt water is denser than fresh water because salt increases the mass of the water by adding more particles to it, which makes the water heavier and more tightly packed. This increased density allows objects to float more easily in salt water compared to fresh 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.
Salt water is denser than fresh water due to the dissolved salt molecules, which increases the water's mass. This higher density creates more buoyant force, enabling objects to float more easily in salt water compared to fresh water.