Its not the same, vato.
When sugar is dissolved in water and the water is evaporated off, the sugar will crystallize and recrystallize, resulting in the formation of sugar crystals. The mass of the sugar will remain the same as the initial amount of sugar added to the water.
No, fruit sugar is naturally occurring in fruits, while added sugar is sugar that is added to food during processing or preparation.
Bulk white sugar weighs 880 kilograms/cubic meter. Bulk table salt weighs 1154 kilograms/cubic meter. So no, salt and sugar don't have the same mass. Further They do not have the same density. 1 kilo of sugar has the same mass as 1 kilo of salt.
No. Some foods, such as raisins, have a lot of sugar but it's not refined, as added sugar usually is.
Powered sugar is pulverizing granulated sugar, with cornstarch added to prevent lumps.
The volume of the resulting solution is actually increased. As a rule of thumb the extra volume is about 60% of the kg mass taken in litres.Example: 1 L water + 1 kg sugar will take 1 L + 0.60L = 1.6 L(with total mass of 2 kg solution)
No, natural sugar is found in whole foods like fruits and dairy products, while added sugar is put into foods during processing or preparation.
Sugars are carbohydrates and simple sugars are monosaccharides such as glucose, fructose etc with the general formula C6H12O6. When dissolved in water, these molecules do not break further and hence the mass remains the same.
Yes both will weight the same. Because the sugar merrily dissolves in the tea.
Caster sugar is called "superfine" sugar in the United States. Do not confuse with confectioner's (powdered) sugar to which cornstarch has been added.
Yes. The mass is preserved in a chemical reaction. In other words, the tea will weigh more when sugar is added to it, and the final mass will be exactly as much as the mass of the tea without sugar plus the mass of the sugar alone.
The mass of the sugar will remain the same, 1 kilogram, regardless of location. Weight (which is affected by gravity) is what changes depending on location. On the Moon, the bag of sugar will weigh less due to the weaker gravitational pull compared to Earth.