Weight is a term used to refer to mass that is under the influence of gravity, of a gravimetric field. Volume is a term used to refer to the amount of space (the 3D kind) that an object, a "mass" takes up. The two are related by the term density. Density is the weight of a given substance that occupies a designated volume of space. Take a block of granite. You know, the rock. It's heavy. A block of it that is one cubic foot in volume weighs about 171.7 pounds. That's a lot, huh? Yup. It's heavy stuff. Dense stuff. It's density is about 171.7 pounds per cubic foot. (Yes, we averaged it out a bit, but no biggie.) If our block of granite weighs 171.7 pounds per cubic foot, it weighs about 2.75 grams per cubic centimeter. That's 2.75g/cc. See how we wrote it? It says the same thing. And, presto! we've got this nice little package, that 2.75g/cc, and now we can compare our granite to something else. You're ready to take on something we call specific gravity. Good luck. Not that you'll need it. You can handle it. It's a piece of cake.
Density = mass / volume. So if the volume changes, the density will obviously also change.
Yes, the volume of water can affect the temperature rise in the reaction between calcium oxide and water. A larger volume of water can absorb more heat energy released during the reaction, resulting in a lower temperature rise compared to a smaller volume of water. Additionally, the concentration of the resulting calcium hydroxide solution can also influence the temperature change.
when water is added to water...nothing happensit just stays the same it is stillWATER!!!!!Its volume increases and its mass increases but, amazingly, its density remains the same.
The concentration increases as solid solute drink mix is added to a solvent (such as water) because more solute particles are being added to the same volume of solution. The concentration is directly proportional to the amount of solute per unit volume of solution.
Since the salt becomes part of the water, and doesn't take up space in the water, the water level doesn't change.
this is because water is having its own volume.
A procedure with water displacement is a method used to measure the volume of an irregularly shaped object by placing it in a known volume of water and measuring the change in water level before and after the object is added. The difference in water level corresponds to the volume of the object.
when more mass is added
The volume occupied by water will not change, it will remain 11.2cm3 (1ml =1cm3). However, the final volume level will be 11.94cm3, since the silver pellets will displace the same volume of water that it occupies.
Yes there is a change in volume.
To calculate the final volume of water, you need to measure the initial volume of water added and any additional water that may have been added or lost during the process. By adding the initial and any subsequent volumes of water together, you can determine the final volume of water present.
Nothing. The main concept of dissolving something is that it does NOT add to the volume of the liquid. You can just keep chucking the sugar into the water and the volume will not change (the weight WILL!). ...At least not until you have added over 91g, then no more will dissolve at all. If you keep adding sugar, it will float about and collect at the bottom and the volume will increase with every grain added. It's 91g because Glucose (I assume this is the sugar you refer to) has a water solubility of 91g per litre.
Density = mass / volume. So if the volume changes, the density will obviously also change.
In general, yes, but lots of things may cause its volume to change. The volume will change if temperature or pressure change, or if something dissolves in the water. Volume may also decrease by evaporation.
Yes , the volume of water will increase if salt is added , as salt is a solute and water is a solvent. When salt is added , it affects the weight of molecules and the liquid itself.
To calculate the water difference when the density changes, you would need to account for the change in volume due to the density change. Use the formula: Difference in water volume = Original water volume / Original water density - Original water volume / New water density. Multiply this difference in volume by the new water density to obtain the actual water difference.
The volume increase, mass does not change.