You can find the volume of everything which exists, providing you can measure it. To find the volume of anything which is an irregular shape, such as a piece of cork or a piece of rock, the method is as follows . Get a container that is large enough to hold the object. Fill this container to the brim with water. Now immerse the object in the water until it is totally covered with water. Collect every drop of water which overflows after putting your object in. Measure this collected overflow in a measuring flask. Let us suppose that the overflow is 230 ml (Millilitre) This quantity is exactly the same as 230 cubic centimetre. That is the Volume of your object. We use the unit 'ml' when referring to liquids or fluids. We use the unit cc's when we refers to solids . If the object floats, tough luck for the object, you are smarter than it. Push it into the water until it drowns! Of course you will need to push it down with a thin wire so that you don't add extra volume to your immersed object. A pin or a straightened out wire paper clip would be a good thing to use to drown your object. However don't do this with your pet canary, it will struggle and spill extra water and give you a false result.
Matter is defined as anything that has mass and volume. Mass is the amount of matter in an object. Volume is the amount of space an object takes up.
Make sure that first you weigh the object and then find its volume because if you find the volume first the object will get wet and the mass of the object will not be accurate.When you are using the measuring cylinder to find the volume make sure you read at eye-level and at the bottom of the meniscus.Always take repeated readings when finding the mass.
To find the volume of an irregular object such as a rock, you have to use displacement. If you place the object in a graduated cylinder filled with water, the volume of the object is equal to the amount of water that the object displaces. For example, if a graduated cylinder is filled with 100mL of water, and you place an object such as a rock and the water rises from 100mL to 106mL, then the volume of the rock is 6.
You use integration - you divide the object into lots of thin layers, and calculate area x thickness for each. If the area is irregular, you use integration once again for each: divide it into lots of thin strips, and treat each as a rectangle.
You can measure the volume by filling a container (the best option would be an accurate measuring cilinder) with water. Note how much water is in the container, now immerse the object you want to measure in the water and once more note how much water is in the container. The difference between your second measurement and the first is the total volume of the object. Another way would be to weigh the object and then calculate its volume via its density Density=mass/volume so volume=mass/density. This method only works if your know the density of the object. A third way would be to simply measure the dimensions of the object and mathematically calculate the volume (e.g. a cube would be length*width*height).
If you push it down, you can measure the volume of the displaced liquid.
To find the volume of something that floats, you can measure the amount of water it displaces when submerged. The volume of water displaced is equal to the volume of the object. This can be calculated by measuring the change in water level before and after submerging the object.
To find the density of an object that floats, you can use the formula density = mass/volume. First, measure the mass of the object using a scale. Then, submerge the object in water and measure the volume of water displaced, which is equal to the volume of the object. Finally, divide the mass of the object by its volume to calculate the density.
Push it down, and measure the displaced liquid.
you cant its inpoibl
Yes, the water displacement method can be used to calculate the density of an object that floats in water. To do this, you would need to measure the volume of the water displaced by the object when it is submerged, and then divide the object's mass by this volume to find its density.
To find the volume of an irregular object that floats in water using water displacement, you can follow these steps: Fill a container with a known volume of water. Measure the initial water level. Carefully lower the object into the water and measure the new water level. The difference in water levels before and after submerging the object is equal to the volume of the object.
If you can determine the volume fractions of the object that are above and below the water, then you can find the density of the object by multiplying the density of the fluid it floats in by the fraction of the volume that is below the surface of the liquid. Another, more complex way is to weigh the object alone then attach it to one arm of a balance to weigh the object when it is floating. As it floats it will displace an amount of liquid equal in weight to the total object. The decrease in weight will be proportional to the fraction of the object that is submerged. As an example: If an object weighed 100 grams out in the air but only required 20 grams to counterbalance its weight when it is floating, and the fluid it was floating in was water, then the density of the object would be (1 g/cubic centimeter)·(100-20)/100 = 0.8 g/cubic centimeter.
Look at the LAST WORD of the question, they switch it sometimes if it is: Underwater than it is TRUE, If it's Surface of the water than it is FALSE ~
Simply because the volume of water displaced is not equal to the actual volume of the object. If an object is lighter than water, you have to find another method of determining its volume. ------------------------------------ alternatively you could use a very thin pin to push the object under the water. However, the volume of the submerged portion of the pin would need to be suvtracted from the volume of the object measured.
To find the density of an object in water, first measure the mass of the object using a scale. Then, measure the volume of the water displaced by the object when it is submerged. Divide the mass of the object by the volume of water displaced to calculate the density of the object in water.
To find the volume of an object you must multiply the height by the width by the length. Expression:(HxWxL=Volume)