Density of Non-Geometric Objects: Study with Video Lessons, Practice Problems & Examples
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To determine the volume of irregularly shaped objects, water displacement is a practical technique. By submerging the object in water and measuring the change in water level, one can calculate the object's volume. For instance, if water in a graduated cylinder starts at 3.5 mL and rises to 5.8 mL after submersion, the object's volume is the difference:
resulting in a volume of 2.3 mL. This method is particularly useful for objects that do not conform to standard geometric shapes, allowing for accurate volume measurements which are essential in calculating density.
The density of non-geometric objects can be determined using water displacement.
Calculating Density
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concept
Density of Non-Geometric Objects Concept and Example
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Video transcript
Hey everyone so when it comes to calculating the density of non geometric objects we have to utilize what's called water displacement. Now water displacement is just the amount of water moved out of the way when an object is totally submerged. Now here we're going to say water displacement can be used to determine the volume of non geometric objects.
So we're going to look at this example. Here it says calculate the volume of the water displaced by the submerging of the object. Here the volume of the given cylinders are in milliliters. All right. So if we take a look here, there's nothing inside of this first tube here and we're going to approximate what the volume is. It kind of looks like it touches around this line. So we're going to say this is approximately 3.5 milliliters.
Now we've taken our non geometric object and placed it within the water. This causes a rise in the water level. If we take a look here, we say that our new volume is a little bit harder to see. We're going to say that it's not quite 6 milliliters. We're going to say here that it's approximately 5.8 milliliters. So we're going to say we have 5.8 milliliters after we've submerged the non geometric object.
So the volume of the object would just be our final volume of 5.8 milliliters minus our initial volume of 3.5 milliliters. So that would give me a volume of the non geometric object of 2.3 milliliters. So 2.3 milliliters would be my final answer for this example question.
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Problem
Problem
A piece of unknown solid weighs approximately 0.045 lbs. When a scientist places it in a glass beaker the water level increases from 200 mL to 260 mL. What is the density of the unknown solid in g/mL?
A
0.5 g/mL
B
0..2 g/mL
C
0.0007 g/mL
D
2.9 g/mL
E
0.3 g/mL
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Problem
Problem
If an irregularly shaped apple possesses a density of 0.96 g/cm3, what is its mass in milligrams? (The volume of the given cylinders are in mL).
The water displacement method is a technique used to determine the volume of an irregularly shaped object. This method is based on the principle of Archimedes, which states that an object submerged in a fluid is buoyed up by a force equal to the weight of the fluid displaced by the object.
Here's how it works in practice: You fill a graduated cylinder or overflow can with water to a certain level and record the volume. Next, you carefully submerge the object whose volume you want to measure into the water. As the object goes in, it pushes the water out of the way, causing the water level to rise. You then measure the new water level. The difference in volume before and after the object was submerged is equal to the volume of the object itself.
This method is particularly useful for solid objects that do not dissolve in water and have complex shapes that make it difficult to calculate volume using geometric formulas.
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How can volume be found using water displacement?
To find the volume of an irregularly shaped object using water displacement, you'll need a graduated cylinder or a beaker with a known volume of water. Here's what you do:
Fill the graduated cylinder or beaker with a certain amount of water and record the volume (V1).
Gently submerge the object whose volume you want to measure into the water. Be careful to avoid splashing so that the water level rises only due to the object being submerged.
Record the new water level (V2).
The volume of the object (Vobject) is equal to the difference between the final water level and the initial water level: Vobject = V2 - V1.
This method works based on the principle of displacement discovered by Archimedes, which states that the volume of the fluid displaced is equal to the volume of the object submerged. Remember that the object must be completely submerged for this to be accurate, and it should not dissolve or react with the water.
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How can density be found with water displacement?
Density can be found using water displacement by following the principle that the volume of water displaced by an object submerged in water is equal to the volume of that object. Here's a step-by-step guide:
Fill a graduated cylinder or overflow can with water to a certain level and record the initial volume (initial).
Carefully submerge the object whose density you want to find into the water without spilling any. Ensure the object is completely submerged.
Record the new volume of water with the object submerged (final).
Calculate the volume of the object (object) by subtracting the initial volume from the final volume (object = Vfinal - Vinitial).
Determine the mass of the object using a balance scale before submerging it in water.
Finally, calculate the density () of the object using the formula:
Remember, density is mass per unit volume, typically expressed in grams per cubic centimeter (g/cm³) or kilograms per cubic meter (kg/m³). This method is particularly useful for irregularly shaped objects that would be difficult to measure using geometric formulas.