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Yes. Salt water from the ocean weighs approx 8.55 lbs per gallon and fresh water weighs approx. 8.34 lbs per gallon, so that is 2.5% greater density of ocean water.
This is approximate because the more salt dissolved in the water the more it will weigh. (For example water from the Dead Sea would weigh more than ocean water) Also, as water gets colder its density increases until it is 4 degrees centigrade above freezing, at which point it begins to expand and then expands abruptly when it forms ice. The salt concentration affect freezing temperature and temperature effects density, so the 2.5% greater density is reliable only for the middle temperature range, away from freezing and boiling.
When one solute (the substance getting dissolved) dissolves in a solvent (the substance doing the dissolving) the solute fills in the spaces between the molecules. (Yes, it's true. There is actually space between molecules. If you would like to prove that to yourself, mix exactly 50 milliliters of water with 50 milliliters of rubbing alcohol and see how much you get. It's cool!!) (Lest you think this is always true, there are other examples of mixing two liquids which result in an increase in volume. That requires a more detailed explanation.)
When salt (the solute) dissolves in water (the Solvent), the ions of sodium separate from the ions of chlorine and enter the spaces between the water molecules. In this process, the salt adds to the mass of the solution but the volume added is less than the volume of the original salt. To be specific, if you added one cubic centimeter of salt to a liter of water, you would find the water increased in volume only about a half of a cubic centimeter. Since a cubic centimeter of salt weighs more than a cubic centimeter of water, the density of the salt water has increased.
So, salt water does weigh more than fresh water. The most amazing thing is that this difference in weight, more accurately the density, drives the largest ocean current in the world called the Thermohaline Conveyor. It's pretty cool.
What else can I help you with?
What heavy object is used to stop a boat from drifting?
An anchor is used to stop a boat from drifting. It is a heavy object that is dropped to the bottom of the water to hold the boat in place.
What to hold a heavy object?
To hold a heavy object, make sure to use proper lifting techniques: bend at the knees, keep your back straight, and lift with your legs rather than your back. Use your core muscles to stabilize the object as you lift it. If possible, get help from another person to lift heavy objects together.
Why a heavy object float in water?
The density of most of the woods are less than 1. That's why they are floating in water. The buoyancy force of water will help the woods to float on water if it's density is less than the density of water.
What is the strength needed to push or pull a very heavy object or to hold a very heavy object or weight above your head called?
The strength needed to push or pull a heavy object is called muscular strength. This is the ability of a muscle or group of muscles to exert force against resistance. Holding a heavy object or weight above your head requires muscular endurance, which is the ability of a muscle or group of muscles to sustain repeated contractions over a period of time.
What happens to the buoyant force on an object as is lowered into water?
As the object is lowered into water, the buoyant force acting on it increases because more of the object is submerged in the water, displacing a greater volume of water. This increase in buoyant force helps to counteract the gravitational force acting on the object, making it easier to hold or push the object deeper into the water.
What heavy object is used to stop a boat from drifting?
An anchor is used to stop a boat from drifting. It is a heavy object that is dropped to the bottom of the water to hold the boat in place.
What to hold a heavy object?
To hold a heavy object, make sure to use proper lifting techniques: bend at the knees, keep your back straight, and lift with your legs rather than your back. Use your core muscles to stabilize the object as you lift it. If possible, get help from another person to lift heavy objects together.
Do water hold heat longer than sand?
no
What hold heat longer Rocks or water?
Rocks
Where is the UFO evedence you can hold in your hand?
There is no UFO evidence that you can hold. If someone gets close enough to a UFO to get a piece to hold in their hand, the object is no longer flying and that person would be close enough to identify the object.
Can a toothpick hold up a water bottle?
No, a toothpick is not strong enough to hold up a water bottle. Water bottles are too heavy for a toothpick to support.
What an anchor?
An anchor is a heavy object from a ship attached to along length of chain to hold the ship in one place.
What is a Paperweight?
It is a small but heavy object used to hold down a stack of papers so they don't blow away.
What is it called when the ground can no longer hold water?
When the ground can no longer hold water, it is called saturation. This occurs when the soil is unable to absorb any more water due to saturation and excess water pools on the surface or runs off.
Why a heavy object float in water?
The density of most of the woods are less than 1. That's why they are floating in water. The buoyancy force of water will help the woods to float on water if it's density is less than the density of water.
How does a cloud hold water?
i think that clouds hold their water by saturation. so when the water gets more heavy then the cloud the water turns into droplets(rain). i know that this is not the best answer but at least i tried.
What is the strength needed to push or pull a very heavy object or to hold a very heavy object or weight above your head called?
The strength needed to push or pull a heavy object is called muscular strength. This is the ability of a muscle or group of muscles to exert force against resistance. Holding a heavy object or weight above your head requires muscular endurance, which is the ability of a muscle or group of muscles to sustain repeated contractions over a period of time.
