A solution is considered a homogeneous mixture of two or more substances; solutions are generally liquids but sometimes solid. For gases the term is not so adequate.
Yes, the density of an entire solution can be estimated through the measurement of a small sample. By accurately measuring the volume and mass of a small sample, you can calculate the density of the entire solution using the formula Density = Mass/Volume.
The resulting solution is classified as a saline solution. This solution contains sodium ions (Na+) and chloride ions (Cl-) in water. It can conduct electricity due to the presence of ions in the solution.
Yes, leaves are a sample of matter. Matter is anything that has mass and takes up space. Leaves are composed of atoms and molecules, making them a form of matter.
Salt is classified as a compound, which is a type of matter made up of two or more elements chemically combined in definite proportions. In the case of salt, it is composed of the elements sodium and chlorine bonded together to form sodium chloride.
The amount of space that a sample of matter occupies is called its volume. This can be measured in units such as cubic meters, liters, or cubic centimeters depending on the scale of the sample.
Small particle that is a building block of matter
Sprite is a liquid solution that is classified as a beverage, so it is considered a liquid matter.
CO2(aq) because a solution means the substance is dissolved in water.
Non volatile matter = [(W2-W1)/V] x 100 where W2 :Weight of beaker [Before sample addition & evoporation] W1 :Weight of beaker [after sample evoporation] V : Volume of sample taken
yes everything is classified as matter
This is a homogeneous solution.
Yes!
I believe it is a heterogeneous mixture, which means you can see the two items in solution. Water and pulp I'm guessing it wouldn't be classified as a liquid matter solely.
why do stars twinkle
Matter can be classified into 3 categories: 1.Solid 2.Liquid 3.Gas
first measure the volume of the sample solution needed to change the blue color of the DCPIP solution into colourless. then, weigh the mass of the sample solution. finally calculate the concentration by using the formula: volume required t change the color of DCPIP solution (dm) per mass of the sample solution (g)
Yes, the density of an entire solution can be estimated through the measurement of a small sample. By accurately measuring the volume and mass of a small sample, you can calculate the density of the entire solution using the formula Density = Mass/Volume.