Wiki User
∙ 14y agoYes, it's just a matter of subtraction. You are correct. You know how much space that two objects occupy, so you can subtract the space that one takes up to find the volume of the other.
Wiki User
∙ 14y agoTo find the volume of the liquid, you need to subtract the volume of the ball alone from the volume of the liquid plus submerged ball. The volume of the ball should be subtracted to isolate only the volume of the liquid in the cylinder.
the most accurate would be a graduated cylinder but there are beakers and other things that aren't as accurate
A graduated cylinder or a volumetric flask should be used to make a precise measurement of liquid volume. These tools have calibrated markings on the side that allow for accurate measurements to be made. It is important to ensure that the liquid level is read at eye level to minimize any parallax error.
To remove liquid from an R22 cylinder, you need to first ensure the cylinder is upright and not tilted. Connect a recovery machine to the cylinder and open the liquid valve. Allow the recovery machine to pull out the liquid until only vapor remains in the cylinder.
If you are submerged in a liquid denser than water, the pressure exerted on you will be greater than the pressure you would experience while submerged in water. This is because the density of a liquid affects the pressure it exerts on objects submerged in it.
No, a body totally submerged in a liquid displaces a volume of water equal to its own volume. This is known as Archimedes' principle, which states that the buoyant force acting on an object is equal to the weight of the fluid displaced by that object.
Any liquid.
It measures the volume of a liquid
gradulated cylinder
the most accurate would be a graduated cylinder but there are beakers and other things that aren't as accurate
Yes just subtract the volume of the ball from the volume you measure of the liquid.
The graduated cylinder is used to measure liquid volume. These cylinders are said to be more precise and accurate over beakers and flasks.
The level of the liquid in the cylinder rose by 10 mL when the rock was submerged in the liquid.
When using a graduated cylinder you should use liquid measurements. Specifically the units of liters (L) or milliliters (ml), which are fractions of liters.
The displaced liquid volume is equal to the volume of the cylinder. The volume of the cylinder is πr^2h, so in this case it is π(2cm)^2(4cm) = 16π cm^3. The volume displaced is equal to the rise in the liquid level in the graduated cylinder. Using the formula for the volume of the liquid in a cylinder (πr^2h), we can solve for the height (h). The rise in the liquid level will be approximately 1.06 cm.
A graduated cylinder or a volumetric flask should be used to make a precise measurement of liquid volume. These tools have calibrated markings on the side that allow for accurate measurements to be made. It is important to ensure that the liquid level is read at eye level to minimize any parallax error.
The upthrust, or buoyant force, acting on an object submerged in a liquid is equal to the weight of the liquid displaced by the object. The volume of the body submerged in the liquid affects the upthrust because the greater the volume of the body submerged, the more liquid is displaced, resulting in a larger upthrust force.
A graduated cylinder is typically used to determine the volume of a liquid in a laboratory setting. The liquid is poured into the cylinder, and the volume is read at the meniscus, the curved surface of the liquid.