The least dense liquid is found at the bottom of the graduated cylinder, because the less dense it is, the farther it will go down in th graduated cylinder.
the bottom of the graduated cylinder
No, not in water. Gold is very dense. However, if you found a liquid that is more dense than gold, at a temperature that would not melt the gold, then the gold would indeed float in it.
The volume of an irregularly shaped solid such as a watch is found by immersing that solid in water inside a graduated cylinder. You can then simply read the change in water level off the markings on the cylinder. Of course, if your watch is not water proof, this may not be such a good idea.
An object will float when submerged into liquid because its density is less than that of the liquid. As described in Archimedes' Principle, the buoyancy forces on an object will be equal to the weight of the liquid displaced. If the density of the object is less than that of the liquid, the weight of the liquid that would be displaced by the volume of the object will be greater than the weight of the object and the object will float. If the density of the object is more than the density of the liquid it would displace when submerged, the object will sink.
Nucleo Sap or Nucleoplasm is the rightanswer! Inside the Nucleoplasm is chromosomes, which consists of genes, which plays an important role in inheritance!
Mercury
On the top
On the top
The least dense liquid would be found at the top.
the denset
Problem: You are given two unknown liquids. Find the density of each. Materials: 100ml graduated cylinder, triple beam balance, calculator, 2 unknown liquids. Procedure: 1) Find the mass of the empty graduated cylinder. 2) Pour unknown liquid #1 into the graduated cylinder to the 50 ml. level. 3) Find the mass of the graduated cylinder with 50ml of unknown liquid #1. 4) Repeat steps 1-3 for unknown liquid #2. We can calculate density of a liquid using the formula: Density= Mass/Volume where mass is that for just the liquid (you must subtract out the mass of the graduated cylinder). Now let's calculate the densities of the two liquids using the following given data. Liquid #1: Given: Mass of empty graduated cylinder = 78 grams Mass of graduated cylinder with unknown liquid #1= 128 grams. Find: a) Mass of just the liquid = ____ b) Volume of liquid=_____ c) Density of liquid #1 =____ Liquid #2: Given: Mass of empty graduated cylinder = 78 grams Mass of graduated cylinder with unknown liquid #2= 117.5 grams. Find: a) Mass of just the liquid = ____ b) Volume of liquid =_____ c) Density of liquid #2=____ Check your answers by inserting the value in the box below.
As a chemist I can tell you that there are a significant purpose differences between the two, though sometime masked in high school chemistry. In college you learn that the graduated cylinder are more specifically designed to measure volume of a liquid. The test tube is glass which is safer to do most chemical reactions in - meaning the test tube is not generally used for measurement but rather a container for liquids.
irregular
To find the volume of water you must put it in a graduated cylinder. Read the measurements.
it can be found by first taking the volume of the water itself and then the volume of the object in the water. you pour water into the 12-sided object, then measure the amount of water using the graduated cylinder. Then you do this: length x width x height = volume
it can be found by first taking the volume of the water itself and then the volume of the object in the water. you pour water into the 12-sided object, then measure the amount of water using the graduated cylinder. Then you do this: length x width x height = volume
The liquid molecules are more strongly attracted to the graduated cylinder than to each other. This causes the liquid to rise up on the sides of the graduated cylinder. Therefore it is important to read the line, even with the center of the meniscus, and at the bottom of the meniscus to accurately measure the volume of a liquid in the graduated cylinder. If you are still a bit confused I also found some information at this website: http://chemistry.about.com/od/chemistrylabexperiments/qt/meniscus.htm
water displacement or the displacement method