it will, unless the specific gravity of the ball is greater that the oil, if it is, it will sink. But I doubt that it is
Yes, a rubber band will float in oil because rubber is less dense than oil. This causes the rubber band to displace a volume of oil greater than its own weight, allowing it to float on the oil's surface.
Rubber has a lower density compared to oil, which causes it to float on the surface of the oil. This difference in density results in a buoyant force that pushes the rubber to float rather than sink.
Yes, it does, because oil is lighter than water. The ball will sink more in oil than in 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.
Yes it will float until it is less denser than oil and water. But just after increasing its density by absorbing enough water or oil it will start sinking.
Yes, a rubber band will float in oil because rubber is less dense than oil. This causes the rubber band to displace a volume of oil greater than its own weight, allowing it to float on the oil's surface.
Rubber has a lower density compared to oil, which causes it to float on the surface of the oil. This difference in density results in a buoyant force that pushes the rubber to float rather than sink.
FLOAT
Yes, it does, because oil is lighter than water. The ball will sink more in oil than in water.
It depends on what you want to float it on. For instance if you want to float a ball in oil the ball's density must be less than the oil's density.
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.
Yes it will float until it is less denser than oil and water. But just after increasing its density by absorbing enough water or oil it will start sinking.
A cotton ball is thinly attached with lots if air between its fibers. It would be hard to find a liquid it doesn't float on, so the answer is yes to both.
A rubber ball without air sinks because it is denser than water, causing it to displace less water than its own weight. However, when the ball is filled with air, it becomes buoyant due to the air creating a positive buoyant force that is greater than the ball's weight, causing it to float.
No, bounce balls are typically made of rubber or plastic, so they are denser than water and will sink rather than float.
If the density of the ball bearing is less than the density of the given oil, the ball bearing will float in the oil since objects with lower density float on substances with higher density. The buoyant force acting on the ball bearing will be greater than its weight, causing it to rise to the surface of the oil.
If the density of a ball bearing is less than the density of glycerine oil, the ball bearing will float when placed in glycerine oil. This is because objects with lower density than the fluid they are placed in tend to float.