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∙ 7y agoThe water will rise by the volume of the brass:
volume = mass/density = 129g / 8.56 g/ml ≈ 15.1 ml
→ final reading ≈ 50.0 ml + 15.1 ml = 65.1 ml
Wiki User
∙ 7y agoYou MEASURE mass with a balance. You MEASURE volume (if liquid) with a graduated cylinder. Then take these and divide. density = mass divided by volume.
Yes, provided you know the density of the substance and the substance can be adequately measured by the cylinder. Because density is the quotient of the mass and volume, the mass is the product of the density and volume. So if you multiply the density and volume (assuming the units match), you will find the mass.
Find the density and mass of the object d=m/v and plug in your numbers and solve for volume
Volume of iron shot added = 48.39 ml - 39.99 ml = 8.40 ml mass = density × volume = 7.92 g/ml × 8.40 ml = 66.528 g ≈ 66.5 g
The volume of the piece of metal is measured by the difference in the volume of water in the graduated cylinder before and after the piece of metal is placed in the cylinder. This is stated to be 36 - 20 = 16 mL. Density is defined to be mass per unit volume. Therefore, for this piece of metal the density is 163/16 = 10 g/mL. (Only two significant digits are justified, because the is the number of significant digits in the limiting datum 16.)
Mass and volume are needed to calculate the density of a graduated cylinder.
You cannot measure the mass of a solid with a graduated cylinder.
not quite. you can measure volume in a graduated cylinder. you can use a scale, water, and a graduated cylinder to find out the density of an object by filling the graduated cylinder to an easily calculated point (250) then dropping your object in the water making sure none splashes out then measure the difference, then weigh it and divide the mass by volume to get density.
The question seems absurd has no meaning. measuring cylinder is a device to measure the volume. if you want to find density of a cube, you an find volume displaced and knowing mass can find the density - Archimedean principle it is beyond the scope of this page to answer fully
density -------- Graduated cyllinders are used to measure volumes of liquids, powders or fine granules.
densities. Liquids will arrange in order of decreasing density from bottom to top in the graduated cylinder. Liquids with higher density will sink to the bottom while those with lower density will float on top.
50 density
136 g x 1 ml/8.58 g = 15.85 ml = volume of the piece of brass.According to Archimedes, this will displace an equal volume of water. Thus, the final volume in the cylinder will be 50.0 ml + 15.85 ml = 65.85 ml = 65.9 ml (to 3 sig. figs.)
Density of an object is defined as mass per unit volume. Density - mass/volume (m/v) To find the density of a liquid using a graduated cylinder, you first of all take a measurement of the mass of the empty graduated cylinder (m1) and write it down. Lets say the mass is 0.5 kg (500 grams) Then fill the cylinder with the liquid that you want to find the density for and note down the volume (v). For easier calculation take 1 liter of the liquid. Now take a measurement of the mass of the cylinder with the liquid (m2) in it and write it down. Subtract the mass of the empty cylinder from the mass of the cylinder and liquid combined to get the mass of the liquid (m = m2 - m1). Now divide the result z by the volume (v) of the liquid. density = m/v
If you are going to weigh a liquid in a graduated cylinder, the weight that you will get when you place the cylinder on the scale will be the combined weight of the cylinder and its contents. To find the weight of the contents alone, you therefore have to subtract the weight of the empty cylinder. And to calculate density you need to know both the weight and the volume.
If you are going to weigh a liquid in a graduated cylinder, the weight that you will get when you place the cylinder on the scale will be the combined weight of the cylinder and its contents. To find the weight of the contents alone, you therefore have to subtract the weight of the empty cylinder. And to calculate density you need to know both the weight and the volume.
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