If you mean: % by MASS ( %m/m), it's quite easy to do (based on the 'Mass Conservation Law).Measure 10 gram of the 95%m/m original solution, this contains 95% of 10g = 9.5g SoluteThen add new solvent up to 95g final solution, so adding (95g - 10g =) 85 gram new solvent, then you'll get:9.5g Solute (in 10 g of original solution) in 95g (final) solution, thus 9.5g S / 95g = 10%m/mHowever if the meaning was: % by Volume ( %v/v) then calculation appears to get very complicated, but not impossible if you know at least the density values of all solutions (original 95%v/v and final 10%v/v) and of the solvent.(In that case mail me: JoppeDeQuint at answers dot com).DO NOT ever use: (orig. volume) + (added volume) = final volume.It's only a rule of thump, an approximation. This is because fluids can contract on mixing at dilution. There is no rule such as: conservation of volume.Your case: 10 ml + 85 ml (is not equal but) < 95 ml final solution.
seventy cubic feet
It is impossible to answer the question since there are no units given. Volume of 10 what? The density of gold is 19.3 gcm-3 which may imply that the volume is given in SI units, but that could be cubic metres, cubic centimetres or cubic micrometres.
Assuming the gold nugget is solid and pure (unlikely in real life!) The volume of the nugget is 77.0 - 50.0 mL = 27.0 mL So density = mass/volume = 521/27.0 = 19.3 g per mL.
193g
It is 0.419 cups.
Just a tad under 1 cup
If you mean: % by MASS ( %m/m), it's quite easy to do (based on the 'Mass Conservation Law).Measure 10 gram of the 95%m/m original solution, this contains 95% of 10g = 9.5g SoluteThen add new solvent up to 95g final solution, so adding (95g - 10g =) 85 gram new solvent, then you'll get:9.5g Solute (in 10 g of original solution) in 95g (final) solution, thus 9.5g S / 95g = 10%m/mHowever if the meaning was: % by Volume ( %v/v) then calculation appears to get very complicated, but not impossible if you know at least the density values of all solutions (original 95%v/v and final 10%v/v) and of the solvent.(In that case mail me: JoppeDeQuint at answers dot com).DO NOT ever use: (orig. volume) + (added volume) = final volume.It's only a rule of thump, an approximation. This is because fluids can contract on mixing at dilution. There is no rule such as: conservation of volume.Your case: 10 ml + 85 ml (is not equal but) < 95 ml final solution.
There is no specific volume for gold because volume equals size. So a 1cm cube is 1cm3 where as with a 1 inch cube the volume is 1 inch3 thus the volume is dependent on the cube's size.
Copper will have the larger volume because it is less dense than gold.
Determine the objects mass then submerse it in water, the volume of the water displaced is equal to the objects volume. Now get an equal mass of gold and submerse that in the the same amount of water and record the volume of water it displaces. If the volume of water displaced by the first object is eqaul to the volume of water displaced by the gold then the first object is made out of gold, if however the volumes dont match then it is not made out of gold.
Irdk. :)
Measure the gold, take the volume of the gold, then divide mass over volume to give you the density of gold if it was the same as gold density then it is right other wise that ring is doggy
43L of 18-k gold
1 kg of aluminum has more volume.
Gold.Explanation: Gold has a higher density than water.This means, the value of Mass/volume for gold is more than that of water.Here, the volume is same for both the substances. Then, for the density to vary, the mass should vary because volume is the same. As gold as a higher density, it has more mass than water for the same volume of the substance.
14.5 Cubic Inches.