To prepare 1M sulphuric acid from concentrated sulphuric acid:
where density = mass/volume, which is said on the bottle to be (about) 1.84 g/mL,
so then you have: volume = 98g / 1.84(g/mL) = 53.2 mL
53.2 mL if the acid were 100% pure convert in mL given with the purity of 98%, so 100% x 53.2 mL / 98% = 54.3 mL of (98%) concentrated acid.
Never reverse this: DO NOT add water to concentrated fluids!
To prepare 1M sulfuric acid (H2SO4), you would need to dilute concentrated sulfuric acid with water carefully while stirring. Do this by adding the concentrated acid slowly to water, never the other way around, to prevent violent splattering. Always handle concentrated sulfuric acid with extreme caution, as it is highly corrosive.
To prepare 1M H2SO4 solution, you would need to dilute concentrated sulfuric acid (approximately 18M) by adding the appropriate amount of water. To make 1L of 1M H2SO4 solution, you would mix approximately 55.5 mL of concentrated sulfuric acid with about 944.5 mL of water in a volumetric flask while taking proper safety precautions.
The pH of sulfuric acid depends on its concentration. For a 1M solution, the pH would be around 0.3, indicating it is highly acidic.
To dilute sulfuric acid, the acid should be added slowly to cold water with constant stirring to limit build-up of heat. This acid will heat up very quickly, so when you add it to your cold water, you should place your container of water in a larger container filled with ice cold water and ice cubes to help keep the temperature down. If you let the temperature rise as you put it in the container, it will spray out of the container and if it comes in contact with your skin, it will burn you.
No, 1M HCl is a strong acid but not the strongest. Hydrochloric acid (HCl) is a strong acid because it completely ionizes in water, but there are other acids that are stronger, such as sulfuric acid (H2SO4) and hydrofluoric acid (HF).
To prepare 1M sulfuric acid (H2SO4), you would need to dilute concentrated sulfuric acid with water carefully while stirring. Do this by adding the concentrated acid slowly to water, never the other way around, to prevent violent splattering. Always handle concentrated sulfuric acid with extreme caution, as it is highly corrosive.
To prepare 1M H2SO4 solution, you would need to dilute concentrated sulfuric acid (approximately 18M) by adding the appropriate amount of water. To make 1L of 1M H2SO4 solution, you would mix approximately 55.5 mL of concentrated sulfuric acid with about 944.5 mL of water in a volumetric flask while taking proper safety precautions.
The pH of sulfuric acid depends on its concentration. For a 1M solution, the pH would be around 0.3, indicating it is highly acidic.
To dilute sulfuric acid, the acid should be added slowly to cold water with constant stirring to limit build-up of heat. This acid will heat up very quickly, so when you add it to your cold water, you should place your container of water in a larger container filled with ice cold water and ice cubes to help keep the temperature down. If you let the temperature rise as you put it in the container, it will spray out of the container and if it comes in contact with your skin, it will burn you.
No, 1M HCl is a strong acid but not the strongest. Hydrochloric acid (HCl) is a strong acid because it completely ionizes in water, but there are other acids that are stronger, such as sulfuric acid (H2SO4) and hydrofluoric acid (HF).
Add 60g of Glacial Acetic Acid to a 1 liter volumetric flask. Make up to the mark with deionized water. The result is 1M acetic acid solution.
We cannot tell the pH value of sulphuric acid without knowing the concentration of the sulphuric acid. As sulphuric acid is acid; so, its pH will be in the range of 1 to 6.9, depending upon its concentration.
To make 1 molar (1M) sulfuric acid, you will need to dissolve 98.08 grams of sulfuric acid (H2SO4) in enough water to make 1 liter of solution. Measure out the appropriate amount of sulfuric acid using a balance and dissolve it in a volumetric flask with the necessary amount of water to reach a final volume of 1 liter. Remember to always add acid to water and not the other way around to avoid splattering and potential hazards.
normality of A = #gram equivalent weights A divided by #litres of solutionthus: measure a gram equivalent of H2SO4 (49g) and add to 1000ml volumetric flask that has 500ml deionized distilled H2O. stopper flask, mix by swirling, open flask and fill to 1000ml mark, thoroughly mixOR1N H2SO4 = 0.5M H2SO4volumetrically measure 500ml 1M H2SO4volumetrically transfer to 1000ml volumetric flask (using DDH2O)fill to 1000ml mark with DDH2O
To make a 50mL solution of 1M HCl, you would measure out 5.0mL of concentrated hydrochloric acid solution (37% HCl) and dilute it with distilled water in a graduated cylinder or volumetric flask up to the 50mL mark. Always remember to add the acid to the water slowly and with mixing to prevent splattering and heat generation. Additionally, always wear appropriate personal protective equipment when working with concentrated acids.
You could titrate equal volumes of 1M solution of NaOH and 1M solution of HCl to obtain 1M solution of NaCl.
A 1 Molar solution simply means an element's/compound's atomic mass (as given in the periodic table of the elements) diluted in 1 L deionised water. Sulphuric acid for example is H2SO4 (1+1)+(32)+(16+16+16+16) = 98 Therefore 1M = 98in 1L You only want 3.5mM (0.0035) Therefore 3.5mM = 0.343 g made up in 1L water ..................(98 x 0.343)