Composition of Ocean Water Element Percent of Ocean Water Oxygen 85.7000 Hydrogen 10.8000 Chlorine 1.9000 Sodium 1.0500 Magnesium 0.1350 Sulfur 0.0885 Calcium 0.0400 Potassium 0.0380 Bromine 0.0065 Carbon 0.0026
Liquid liquid gas
Dry ice is CO2 and water is H2O; all the chemical properties are different.
The biggest of all water forms is the ocean, which covers about 71% of the Earth's surface.
~71% of the earth is covered with water, of that ~97% is salt and ~3% is fresh (2% of fresh water is frozen, only about 1% is available)
Yes because The ocean is the main sorce of water
No, because ocean water is not salt. Ocean water does have salt dissolved in it, but there are distinct chemical and physical differences. First, ocean water is not crystalline while salt is. Second, ocean water is a solution with many different solutes while salt is a pure compound.
No! Not all of the ocean are salt or have salt. Salt is a mineral to the poors along time ago. The ocean water comes from the toliet that you flush. Did you know that? The water you flush goes to the oceans, that's is why it is salty. The saltness can help the animals to actually survie!
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it matters on the Temperature of the water and the physical properties that are in the ocean
Temperature and salinity are two properties that significantly influence the destiny of ocean water. These properties determine the density and buoyancy of water, which then play a key role in driving ocean currents and circulation patterns around the world. Temperature differences also drive the water cycle, influencing weather patterns and climate.
Eventually, all water flows to the ocean.
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Liquid liquid gas
Like all oceans and seas, the Atlantic Ocean is salt water.
Individual water masses within the ocean are identified based on their distinct properties such as temperature, salinity, and nutrient content. These properties create different layers or masses of water with unique characteristics that can be tracked and identified through oceanographic measurements and modeling techniques. By analyzing these properties, scientists can distinguish between different water masses and understand their movement and mixing within the ocean.
Because of the colligative properties, ocean water's freezing point is below that of normal "pure" water. The salts disrupt the formation of a lattice, and it requires a lower temperature for the water to freeze.
Oceanographers can determine ocean currents, density variations, and the distribution of marine organisms by using the temperature and salinity of ocean water. These properties influence the movement of water masses and the distribution of marine life in different parts of the ocean.