Essentially, if its density exceeds that of water, it will sink. If its density is equal to or less than, it will float.
Note : Density of water, approx 1 g / cubic centimetre.
Yes under constant pressure, with a given mass, volume changes during the change of state. When steam condenses, its volume is reduced. But, when water changes into ice, its volume becomes more. This is known to be anomalous expansion of water. Where as in other cases, when the liquid form gets changed into solid form, the volume is reduced.
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 amount of water needed to make an object float depends on the object's density and volume. The volume of water displaced by the object should be equal to or greater than the volume of the object for it to float. Adding more water will increase the buoyant force.
The volume of water is directly proportional to its mass. This means that as you increase the volume of water, the mass will also increase proportionally. Conversely, if you decrease the volume of water, the mass will decrease accordingly.
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
You can find the volume of an object bigger than the graduated cylinder by using the displacement method using a beaker. The object also can be measured with a rules length, width, and height.
Yes under constant pressure, with a given mass, volume changes during the change of state. When steam condenses, its volume is reduced. But, when water changes into ice, its volume becomes more. This is known to be anomalous expansion of water. Where as in other cases, when the liquid form gets changed into solid form, the volume is reduced.
The volume of an object can be determined by the displacement of water. By dropping the object into a measuring container of water, where the volume of the water is known, the object's volume can then be calculated by subtracting the volume of the water by the volume of the water and object combined.
The volume of water an object displaces is equal to the volume of the object itself, as stated by Archimedes' principle. This principle explains that the volume of fluid displaced by an object immersed in a fluid is equal to the volume of the object.
The volume of water pushed out of the way by an object is called the displaced volume or the volume of water displaced. This is the volume of water that is moved aside when an object is immersed in a fluid.
disadvantages the object being imersed in the water may react with water or even dissolve slightly therefore reducing the accuracy of the results. the string used to lower the object into the water may also suck some of the water into it. the object may be too light and float on the water. advantages the method is quick and easy if the correct liquid is used with the right object
To measure volume using water displacement, you fill a graduated cylinder with a specific volume of water, note the initial volume, then submerge the object in the water. The increase in water level is the volume of the object. Subtract the initial volume from the final volume to get the volume of the object.
To find the volume of an irregular object using a graduated cylinder, you can use the method of water displacement. Fill the graduated cylinder with a known volume of water, then carefully submerge the irregular object in the water. The increase in water level corresponds to the volume of the object. Subtract the initial volume from the final volume to determine the volume of the irregular object.
By placing the object in water and the volume of water displaced is equal to the volume of the object immersed
multiply it Length- Width - Height , or measure the volume of a container of water then stick the object in and measure the volume of the object+water then subtract the volume of the water then you have the volume
To determine the volume of an object by submerging it, you first need a container filled with a known volume of water. Next, carefully submerge the object in the water and measure the increase in water level. The volume of the object is equal to the volume of water displaced by the object, which can be calculated using the change in water level.
The method of displacement is used to find the volume of irregularly shaped objects by measuring the volume of water displaced when the object is submerged in a container of water. This is because the volume of water displaced by the object is equal to the volume of the object itself, allowing for an accurate volume measurement.