i don't know...
That's why I'm asking you.
soo..
Does a rubber stopper float in water?
No, the density of a rubber stopper is less than the density of water. Rubber has a lower density compared to water, so a rubber stopper would float on water.
The density of a rubber stopper is typically less than the density of water, which is 1 g/cm³. Rubber stoppers usually have a density ranging from 0.9-1.1 g/cm³, making them less dense than water and able to float on its surface.
The volume of the stopper can be calculated by subtracting the initial volume of the water from the final volume. In this case, the volume of the rubber stopper would be 30.9 ml - 25 ml = 5.9 ml. Now, divide the mass of the rubber stopper (8.46 g) by its volume (5.9 ml) to find its density. Density = Mass/Volume, so the density of the rubber stopper would be 8.46g / 5.9ml = 1.43 g/ml.
Yes and no. Rubber bands can float and sink in water. They will float on the water for awhile and then will sink. But not all the time the rubber bands will float on the water for awhile. Sometimes it will immediately sink.
water absorbtion, with an intensity depending on the type of rubber; rubber is not soluble in water and don't react with water
No, the density of a rubber stopper is less than the density of water. Rubber has a lower density compared to water, so a rubber stopper would float on water.
The density of a rubber stopper is typically less than the density of water, which is 1 g/cm³. Rubber stoppers usually have a density ranging from 0.9-1.1 g/cm³, making them less dense than water and able to float on its surface.
The volume of the stopper can be calculated by subtracting the initial volume of the water from the final volume. In this case, the volume of the rubber stopper would be 30.9 ml - 25 ml = 5.9 ml. Now, divide the mass of the rubber stopper (8.46 g) by its volume (5.9 ml) to find its density. Density = Mass/Volume, so the density of the rubber stopper would be 8.46g / 5.9ml = 1.43 g/ml.
Yes and no. Rubber bands can float and sink in water. They will float on the water for awhile and then will sink. But not all the time the rubber bands will float on the water for awhile. Sometimes it will immediately sink.
Rubber bands float or sink based on their density compared to water. If a rubber band is less dense than water, it will float. However, if it is more dense than water, it will sink. This can vary depending on factors like the size and shape of the rubber band.
Rubber bands typically float on water because they are less dense than water. However, if the rubber band is tangled with another object or has absorbed some water, it may sink.
water absorbtion, with an intensity depending on the type of rubber; rubber is not soluble in water and don't react with water
Rubber is less dense than water, so it tends to float naturally. However, if you need to create a float made entirely of rubber, you can shape the rubber into a buoyant object like a ball or a ring to ensure it floats on water. Just ensure that the rubber is lightweight enough to stay afloat.
The types of objects that will float on water are foil, most rubber, and some plastic.
They are full of air, so are buoyant on water.
You can create a DIY bath stopper at home by using a rubber sink stopper or a suction cup drain cover. Simply place the stopper over the drain in your bathtub to prevent water from draining out while you bathe.
To create a DIY bath stopper, you can use a rubber stopper or cork that fits the drain size of your bathtub. Simply place the stopper over the drain to block water from flowing out. You can also use a suction cup or a weighted object to hold the stopper in place.