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Step 1:
Weight Object
Step 2:
Submerge object in a volumetric piece of glassware noting the volume before and after submerging. You can subtract the two volume values to determine the volume of the object--since it will displace it's own volume while submerged.
Divide mass of object by the volume of water the object displaces to get the density.
If this is that more involved question involving the density of the object and distance traveled over time let me know, I can solve that one too!
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∙ 15y ago
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How do you find density of an irregular shape?
Measure the displacement of water when the object is submerged in water. This gives the volume ; then weigh the object and divide the weight by the volume to get the density.
If an object has the same density as the fluid it is submerged in the object will always?
Will always float with the top surface level with the water
Can density tell us what percentage of a floating object will be above the water?
Yes, because density is measuring the volume of the object. So it shows how much percent of the object is submerged.
What property of an object determines the strength of buoyant force that will be exerted on it when submerged in water?
Density - esp relative to water.
How to calculate centre of buoyancy with diameter 10m .height 100 m and thickness 2inch with density 7850kg per meter cube?
The centre of buoyancy (COB) of an object is the centre of gravity (COG) of the water that is displaced when the object is submerged. So to calculate the COB of an object you first need to calculate the COG of the object and the mass of the object in order to find out how the object will sit in the water and the shape of the water it displaces. Once the shape of the displced water is known, then the COG of the displaced water is then the COB of the object. Easy no? The centre of buoyancy (COB) of an object is the centre of gravity (COG) of the water that is displaced when the object is submerged. So to calculate the COB of an object you first need to calculate the COG of the object and the mass of the object in order to find out how the object will sit in the water and the shape of the water it displaces. Once the shape of the displaced water is known, then the COG of the displaced water is then the COB of the object. Easy no?
How do you find density of irregular shape?
Measure the displacement of water when the object is submerged in water. This gives the volume ; then weigh the object and divide the weight by the volume to get the density.
How do you find density of an irregular shape?
Measure the displacement of water when the object is submerged in water. This gives the volume ; then weigh the object and divide the weight by the volume to get the density.
If an object has the same density as the fluid it is submerged in the object will always?
Will always float with the top surface level with the water
What is submerged density of soil?
The unit weight of submerged soil: Submerged Density (kN/m3) = Saturated Density - Water Density Water Density = 9.81 kN/m3
Can density tell us what percentage of a floating object will be above the water?
Yes, because density is measuring the volume of the object. So it shows how much percent of the object is submerged.
What property of an object determines the strength of buoyant force that will be exerted on it when submerged in water?
Density - esp relative to water.
Will an object that has a density of 0.5gmcubed will it float or sinkfloat or sink?
Any submerged object that have less dense than the water it will float. Therefore your submerged object probably will float because it has less dense than the water. I hope my answer helped you.=)
How to calculate centre of buoyancy with diameter 10m .height 100 m and thickness 2inch with density 7850kg per meter cube?
The centre of buoyancy (COB) of an object is the centre of gravity (COG) of the water that is displaced when the object is submerged. So to calculate the COB of an object you first need to calculate the COG of the object and the mass of the object in order to find out how the object will sit in the water and the shape of the water it displaces. Once the shape of the displced water is known, then the COG of the displaced water is then the COB of the object. Easy no? The centre of buoyancy (COB) of an object is the centre of gravity (COG) of the water that is displaced when the object is submerged. So to calculate the COB of an object you first need to calculate the COG of the object and the mass of the object in order to find out how the object will sit in the water and the shape of the water it displaces. Once the shape of the displaced water is known, then the COG of the displaced water is then the COB of the object. Easy no?
How do you use submerging method to calculate volume?
The volume of water displaced is equal to the volume of the object submerged into the water
Where does the ability of an object to float or submerge in water depends on?
ability of an object to float or submerge depends upon the density of the object and on the density of the liquid in which it is submerged if the density of an object is greater than the density of the liquid then the object submerges in the liquid and when its density is less than the density of liquid then it floats on the liquid as in submarines when it takes water in its hollow tank its density increases and it submerges and when it pushes out water from its hollow tanks its density decreases and ot floats on water
What information about a mineral or rock is needed to determine its density?
To determine the density of an object, you need its mass and volume. If the object is oddly shaped, you can determine its volume by measuring the volume of water displaced when thee object is submerged in a container of water.
An object has a weight of 14n in the air it apparently weighs only 3n when it is completely submerged in water what is the density of the object?
Since the DENSITY of WATER = 1, and the Weight is 14 Newtons (in air) and 3 Newtons (Submerged in Water) we can figure the Density of the Object by the following: N = kg·m/s2 14 N = (Mass of Object) x 9.81 m/s2 (Mass of Object) = 14 N / 9.81 m/s2 (Mass of Object) = 1.427 kg And Since IN WATER the Object is 3 Newtons: 3 N = (1.427 kg x 9.81m/s2 ) / (Density of Object) 3 N = (14 N) / (Density of Object) Density of Object = (14 N) / (3 N) Density of Object = 4.6667
