Wiki User
∙ 10y agoit will dissolve
Wiki User
∙ 10y agoIt depends on how much of each substance you have. The more you have, the higher the volume. Therefore, it is impossible to determine without amounts of each.
It depends on what object you are trying to measure. Displacement is appropriate for a medium sized, non-soluble object, of any shape. It would be pretty useless if you wanted to measure the volume of a concert hall or a needle! And it would not work for a sugar cube either. A micrometre would be appropriate for small objects with simple geometry, such as a needle or possibly a sugar cube. But is would be no use for a concert hall nor an irregular object. A ruler would be appropriate for large objects with a simple geometry such as a concert hall. But it would be no use for a needle, nor for an irregular object.
Put it in a container of water. The amount of water it displaces (or the amount the water level rises) is exactly equal to the volume. Behold: you're Archimedes.answ2. For awkward materials such as pumice and sugar cubes, a suitable fluid is a fine granular material such as flour or Lycopodium powder.
I don't now
To make a 10% sugar solution you need to dissolve 10 grams of sugar and bring the volume up to 100 ml
To find the volume of sugar, you would need to measure the length, width, and height of the container holding the sugar. Multiply these measurements together to calculate the volume. If the sugar is loose and not in a container, you could estimate the volume by pouring it into a measuring cup or using displacement by submerging it in a liquid and measuring the rise in volume.
It depends on how much of each substance you have. The more you have, the higher the volume. Therefore, it is impossible to determine without amounts of each.
Use the water displacement method
a sugar cube has air spaces in it. when put in water, the spaces will fill. the volume of water displaced will therefore be less than the original volume of the cube, so no
A sugar cube, since the sugar cube will dissolve in the water and you will not be able to measure the increase in volume.
Use a graduated cylinder.
No, the water displacement method is not suitable for determining the density of sugar. Instead, the density of sugar can be determined by measuring its mass and volume, and calculating the ratio of these two parameters.
Water displacement method will work fine with molecules that do not dissolve... Here you have something that will dissolve in water, changing it's density. What I would do is to weight a graduated container, put some sugar (more you add, more precise will be the result) in the container... Better weight the container before... Weight the container after. Now you know the *weight* part of the answer, then you melt it, in that container... you read the *volume* part of the answer. put the part together to have a density which is mass/volume g/cm³ for example, or g/mL, which is the same.
The only thing you can add to water to increase its volume is more water.
The volume of 10 grams of sugar depends on the density of the sugar. The volume can be calculated by dividing the mass by the density of the sugar. For example, if the density of sugar is 1.59 g/cm3, then the volume of 10 grams of sugar would be approximately 6.29 cm3.
The characteristic of matter illustrated by this observation is that sugar dissolves in water, forming a homogeneous mixture without increasing the total volume. This demonstrates the property of solubility, where the sugar molecules are dispersed evenly throughout the water molecules without changing the overall volume of the solution.
The volume of a sugar solution remains the same when more sugar is dissolved because the sugar molecules displace water molecules without increasing the overall volume. The weight increases due to the additional mass of sugar being added to the solution.