Depends on the size of the cylinder.
A digital balance is the best equipment for measuring the change in mass of potato slices after placing them in different concentrations of salt water. It provides accurate measurements of mass before and after the experiment.
If 4 is cm3 and salt is NaCl the mass is 8,66 g.
Cylinder Volume = (pi) *(radius2)*(height) Cylinder volume = (3.1416)*(22)*(80) Cylinder volume = 1005.312 cm Density = Mass / Volume 0.0045 gcm = Mass / 1005.312 cm Mass = 0.0045 gcm * 1005.312 cm Mass = 4.523904 g
The water is 38g and the salt 2g, so long as there is nothing else in the water
YES!! this is for anything you use with salt the mass will either decrease,increase or stay the same because the other chemicals mixing with the other properties that may be higher than salt it'll turn out some mass is lost or none.
If I understand the question correctly %Salt=mass salt/(mass salt+Mass water) *100 If these are known all is well... Measure your salt and water on a scale and input the results for the %
Knowing the mass of the graduated cylinder allows you to subtract it from the total mass of the cylinder and the liquid, giving you the mass of the liquid alone. This step is important for accurately determining the mass of the liquid without the container's contribution.
The mass of the table salt can be calculated by subtracting the mass of the container from the combined mass of the table salt and the container. So, 124g - 9g = 115g. Therefore, the mass of the table salt is 115g.
Dissolving salt in water does not change the total mass of the salt and water. The mass of the combined system will be the sum of the mass of the salt and the mass of the water. However, the volume of the solution will increase due to the added salt.
A digital balance is the best equipment for measuring the change in mass of potato slices after placing them in different concentrations of salt water. It provides accurate measurements of mass before and after the experiment.
The mass of salt reclaimed should be the same as the mass of salt that was put into the solution.
The center of mass of a solid cylinder is at its geometric center, which is the midpoint of its axis. This point represents the balance point of the cylinder, where its mass is evenly distributed in all directions.
This is powdered salt pressed in the form of a small cylinder.
You cannot measure the mass of a solid with a graduated cylinder.
The easiest way is to place the graduated cylinder on a scale or balance and measure the weight. You would then calculate from the weight (a force measured in kg, usually) to determine the mass.
If 4 is cm3 and salt is NaCl the mass is 8,66 g.
To determine the mass of a graduated cylinder, simply weigh it using an analytical balance or scale. Subtract the empty weight of the balance from the weight displayed when the cylinder is placed on it to obtain the mass of the graduated cylinder in grams.