It depends on the size of the balloon. As the diameter of the balloon increases, its volume is cubed, therefore the volume quickly increases with the size of the balloon.
A bubble is a sphere.
The volume of a sphere is calculated by putting the radius into the formula 4/3 pi r3 in place of the 'r'.
as the bubble rises in the water the pressure decreases (as Pressure = density*acceleration due to gravity*depth in water) which in turn means that the volume of the bubble will increase.
55
1pint
As a bubble rises to the surface of a liquid the pressure on it is going DOWN. Therefore the bubble expands, and usually bursts at the surface.
Bjernkes force is exerted on a gas bubble when the gas bubble is in a liquid, is subjected to an acoustic pressure field, and undergoes volume pulsations. If the acoustic pressure gradient is not zero, it can couple with the bubble oscillation to produce a translational force on the bubble. This force is known as the primary Bjerknes force.
It is my theory that the same volume of water taken from the water bottle has to be replaced by the same volume of air. Hence the air bubble rising to replace the space left by the water.
It will increase the total volume, but it will hardly affect total mass. Remember the definition of density as mass / volume.
As the air bubble increases in volume, its mass remains constant. Because the mass remains constant but volume increases, density will decrease.
Ofcourse, the volume will increase Ofcourse, the volume will increase
The strength of the buoyancy of a bubble is in proportion to it's volume. Since a larger bubble has more volume, as a rule, it would rise more rapidly than a small one.
to remove the air bubble, which are made error in volume. S.Kailash
A sphere is the shape that has the largest volume and smallest surface area. the surface tension pulls the surface of the bubble in but the volume of air inside the bubble remains constant so the bubble wants to become a sphere.
meniscus
As a bubble rises to the surface of a liquid the pressure on it is going DOWN. Therefore the bubble expands, and usually bursts at the surface.
4.903 cm3
The strength of the buoyancy of a bubble is in proportion to it's volume. Since a larger bubble has more volume, as a rule, it would rise more rapidly than a small one.
The strength of the buoyancy of a bubble is in proportion to it's volume. Since a larger bubble has more volume, as a rule, it would rise more rapidly than a small one.
Yes
An air bubble in the solution would effectively increase the volume that you measure for the solid because you would coutn the volume of the bubble as the volume of the solid (but of course, it's just air!).So if you measure the density of a solid by putting a weighed amount of the solid in a liquid (in which the solid is insoluble), then an air bubble in the solution would make the measured volume of the solid larger than it really is.Density is found by taking the mass divided by volume. Assuming you find the mass correctly, if the measured volume is larger than the real volume, the denominator in the fraction (mass/volume) will be too big. If a denominator is too big, than the fraction is smaller.Therefore an air bubble will cause you tounder estimate the density.
Above the bubble point pressure, the oil formation volume factor decreases as the pressure is increased, because there is no more gas available to go into solution and the oil is compressed.