Mortar and pestle
We can not answer this as we were not there to observe the experiment. Only YOU can answer this!
To convert liquid aluminum sulfate to dry tons, you need to know the density of the liquid aluminum sulfate. Once you have the density, multiply the volume of liquid aluminum sulfate in the truck load (in gallons or liters) by the density to get the weight in pounds. Finally, divide the weight in pounds by 2000 to convert to dry tons.
Well, you need to get a beaker and add water.Then add the powdered chalk and add copper sulphate to the beaker.Then get a conical flask with a funnel and get some filter paper and fold it into a funnel and place it the funnel in the conical flask then mix your solution with a stiring rod and pour down funnel .What you should end up with is copper sulphate with the water in the conical flask and the chalk mix in the filter paper.
The milligram equivalent weight of sodium sulfate is 142.04 mg, calculated by dividing the molecular weight of the compound (142.04 g/mol) by 1000 to convert it to milligrams.
Oh, dude, gallium sulfate is like Ga2(SO4)3. It's basically gallium combined with sulfuric acid, you know, just chilling together in a compound. So, if you ever need to make some gallium sulfate for a science experiment or something, that's the formula you'd use.
You would need a mortar and pestle to crush and grind the clumps of copper sulfate into a powdered form.
If you needed to use powered copper 2 sulfate in an experiment and were only supplied with clumps of copper 2 sulfate which tool would you need to convert the copper sulfate to usable form?
You would need to use a mortar and pestle to grind the clumps of copper (II) sulfate into a fine powder, making it easier to use in your experiment.
You would need a mortar and pestle to crush and grind the clumps of copper sulfate into a fine powder for use in your experiment. This tool will help you break down the clumps into smaller particles, making the copper sulfate easier to dissolve or mix with other substances.
A mortar and pestle would be the ideal tool to crush the clumps of copper II sulfate into a powder form suitable for use in your experiment. Alternatively, you could use a hammer and a plastic bag to crush the clumps if a mortar and pestle is not available.
To convert clumps of copper sulfate into a usable form, you would need a mortar and pestle. Grind the clumps of copper sulfate in the mortar with the pestle to break them down into a fine powder that can be easily used in your experiment.
The powdered copper sulfate will dissolve faster than the coarse copper sulfate crystals because the increased surface area of the tiny particles allows for quicker contact with the solvent, facilitating a faster dissolution process.
You can separate powdered copper sulfate and powdered copper in a solution through filtration. Copper sulfate is water-soluble and will dissolve in water, while copper metal will not dissolve and can be collected by filtering the solution. Copper can also be separated from copper sulfate by electrolysis, where an electric current is passed through the solution.
powders have larger surface areas so will dissolve faster
We can not answer this as we were not there to observe the experiment. Only YOU can answer this!
The finely white powdered gypsum used to make paper is called calcium sulfate dihydrate or simply, gypsum.
Yes. It is a chemical compound and as such is homogeneous. Some people may say tat a mixture of crystals and powdered copper sulfate was inhomogeneous as it is different state of subdivision.