7.6 ml
the volume of the tube can be found by multiplying the cross-sectional area by the length of the tube. Assuming the tube has a circular (round) cross-section, the area is given by pi*(radius)^2. Multiplying this area by the length of the tube, L, will calculate the tube's volume.
Fill a test tube with water. Empty that water into a graduated cylinder or measuring cup. You may then read the volume of the water from the measuring cup.
Alternatively, you may weigh the empty test tube and record its weight. Fill the test tube with water and weigh the test tube. Since the density of water at room temperature is 62.4 lb/cu.ft. you may then determine the volume of the test tube from:
(weight of tube filled - weight of tube empty) [in lb.] / (density of water) [lb/cu.ft.]
The volume of the water in Beaker X will be 100cm3, as you are not adding any more water to the equation (50X+100Y is not 150Y or X, but 50X+100Y) The total volume of matter in Beaker X will be 150cm3, and if the beaker is labelled, the volume measure will indicate 150cm3 due to the displacement of water. But as the answer to your question, the volume of water in Beaker X must be 100cm3 even though visual indicators will not show this due to the displacement of water by marbles
If the object has a strange form, you may need to take a beaker and fill it with water to a certain level and record it. Then put the object in the beaker so that it is fully submerged. Then find the new level of the water and record it. Now you can take the difference of the two measurements, and you have volume. If it is a liquid or something that has a normal shape that you can measure, by all means do it the simple way.
mililiters
Use a beaker, obviously. A beaker is wider than a graduated cylinder.
A beaker of water. Fill the beaker to a certain point, put the fossil in the water and see how many ml the water goes up to. The difference between the original fill line and the fill line after dropping the fossil in is the volume in ml.
Fill the beaker with water, then pour it into a calibrated measuring jug
The volume of the water in Beaker X will be 100cm3, as you are not adding any more water to the equation (50X+100Y is not 150Y or X, but 50X+100Y) The total volume of matter in Beaker X will be 150cm3, and if the beaker is labelled, the volume measure will indicate 150cm3 due to the displacement of water. But as the answer to your question, the volume of water in Beaker X must be 100cm3 even though visual indicators will not show this due to the displacement of water by marbles
The easiest way is to place the object in a graduated beaker of water, and see how much the water rises when you put it in. Archimedes Principle says that the volume of the object is the same as the water displaced from the beaker.
To find the volume of an object, we use an overflow cylinder as it gives a measure of the volume of the object by displacing an equal amount of water into the beaker.
REQUIREMENT: stone(volume to be measured), a beaker, thread, water.PROCEDURE: 1. Take water in a beaker half liter or a liter of water.2. Take another beaker with water and put into stone for half hour.3. Now tied the stone with thread and put in in step 1 beaker,the increased volume in beaker is your stone volume.Thanks.
The volume of a beaker doesn't change, it's a beaker. What your were probably trying to ask is what happens to the volume of the ice when it melts. The volume decreases; water is special. Unlike other substances when it freezes it expands. That is why ice floats, it is less dense then water.
Liters is a measurement of volume. 160 Liters is the volume.
Density = mass/volume, so weigh a beaker, put your liquid in the beaker, weigh both beaker and liquid. With subtraction, find the weight of the liquid. Then, find the volume of the liquid with a graduated cylinder. Take mass/volume to find your density.
Fill a market beaker to a specific measured volume. (Eg. 50cm cubed, make sure you have not filled the beaker with water). Now place the object in the beaker with water. The water level should rise (Eg. from 50cm cubed to 60cm cubed). The difference in the original volume and the final volume is the volume of the object. That is the water displacement method.
Depending on the size of the object this can be difficult. For a large object, lime a mountain, say, you have no option but to estimate. For smaller objects use a large beaker, and fill it with a liquid in which your shape is not soluble. Measure the volume of liquid in the beaker. Then place the object into the water and make sure it is totally submerged. The volume of the water in the beaker will rise and the volume of the shape is the difference between the two measures.
A beaker is used to measure volume using water displacement.
a displacement beaker (canister) is used to determine volume of irregular objects. Water is put into the beaker up to the spout, and then an object is placed inside; the water that pours out is collected in a more accurate measurement device, this water is equal (or close to) the volume of the object.