A balloon filled with hydrogen rises until it reaches a level in the atmosphere where the air pressure outside the balloon is equal to the pressure inside the balloon. At this point, the balloon stops rising because the difference in pressure is no longer enough to overcome the force of gravity pulling it downward.
The potential energy of a hydrogen balloon is proportional to its height above the ground. The potential energy is directly related to the altitude at which the balloon is located; the higher it is, the greater the potential energy. The potential energy is determined by the mass of the balloon and the height it has achieved.
A balloon filled with helium rises until it reaches a point in the atmosphere where the density of the surrounding air equals the density of the helium inside the balloon. At this point, called buoyant equilibrium, the balloon stops rising because the forces of gravity pulling it down are balanced by the buoyant force pushing it up.
if you mean a small balloon like those of birthdays, they can be filled with normal air like your breath or it can be filled with helium gas, as it's lighter than air and balloons will be floating in air and if you mean balloons like huge ones used in trips and so on, they are also filled with helium but there's also heat generator to make helium more lighter thus increase the height to which your alloon float
increasing altitude decreases air pressure, this pressure gradient with gravity decides if things sink or float. heating the air in the balloon decreases the weight of the balloon and allows the downward pressure from above plus the weight of the balloon to be less than the upward air pressure from below. hence the balloon rises due to this force imbalance. the balloon reaches a constant height when all three are equal
The atmospheric pressure go on falling. So the pressure in the balloon. It takes lot of height to get the pressure reduced. I mean, the reduction in the pressure can not be easily measured for short height.
A hydrogen balloon rises due to the buoyant force that is exerted on it by the surrounding air. As it ascends, the air becomes less dense, causing the buoyant force to decrease until it eventually matches the weight of the balloon, resulting in it reaching a point of equilibrium and no longer rising.
The potential energy of a hydrogen balloon is proportional to its height above the ground. The potential energy is directly related to the altitude at which the balloon is located; the higher it is, the greater the potential energy. The potential energy is determined by the mass of the balloon and the height it has achieved.
A balloon filled with light gas rises due to buoyancy generated by the difference in density between the gas inside the balloon and the surrounding air. However, as the balloon ascends, the air pressure decreases causing the gas inside the balloon to expand. Eventually, the gas will expand to the point where it equals the surrounding air density and the balloon will stop rising.
A balloon filled with helium rises until it reaches a point in the atmosphere where the density of the surrounding air equals the density of the helium inside the balloon. At this point, called buoyant equilibrium, the balloon stops rising because the forces of gravity pulling it down are balanced by the buoyant force pushing it up.
if you mean a small balloon like those of birthdays, they can be filled with normal air like your breath or it can be filled with helium gas, as it's lighter than air and balloons will be floating in air and if you mean balloons like huge ones used in trips and so on, they are also filled with helium but there's also heat generator to make helium more lighter thus increase the height to which your alloon float
There is no difference at all if the balloon is not inflated or inflated with air.
Because of the pressure in the higher atmosphere is much lower than the pressure where it was filled. This causes the pressure inside to expand the balloon up to and past the bursting point. Most likely the tip of the troposphere.
a balloon rises to a certain height because the gas that is inside is a certain density in this case lighter than the air at sea level it will only continue to rise until the gas inside becomes the same density or heavier than the air around it, a submarine is much more dense than water so unless it is filled with something less dense like air it will sink. im not an expert by any means but that seems logical to me
increasing altitude decreases air pressure, this pressure gradient with gravity decides if things sink or float. heating the air in the balloon decreases the weight of the balloon and allows the downward pressure from above plus the weight of the balloon to be less than the upward air pressure from below. hence the balloon rises due to this force imbalance. the balloon reaches a constant height when all three are equal
You simply calculate it like a cone, but the height of the cone is the height to the top of the FILLED part, not all the way. Half-filled is not enough information . . . there can be "half filled" meaning half the height of the cone, but can also be "half filled" meaning half the volume of the cone.
Yes, both kinetic energy and potential energy can increase when a gas-filled balloon is rising in air. As the balloon rises, it gains potential energy due to its increased height above the ground. At the same time, the balloon also gains kinetic energy as it accelerates upward, increasing its speed.
The work done by the hot air can be calculated using the formula: work = force x distance. The force can be determined using the weight difference before and after inflation (8000 N when deflated), and the distance is the height the balloon rises (1000 m). So, work = (Weight with hot air - Weight without hot air) x height.