when da balun rises up, upthrust V*D*g must b more tham weight mg
m=mass of balun
V= volume f balun,ie,volume of air displaced by da balun
D=DENNSITY OF AIR
d=density of gas in balun
net force on balun=VDg-mg
=(m/d)*D*g-mg
Force=m*acclertion =mg{D/d-1)
so acc=g(D/d-1)
so WHILE RISING, KE WILL INCREASE
N PE WL ALSO INCRESE BCZ HEIGHT IS INCREASING
motion energy
Helium is less dense than air, which is why the helium-filled balloon floats when you let it go.
the temperature affects the balloon filled with air because if it is too cold it can freeze it, and cause the balloon to pop
if the balloon is filled with static electricity
The air particles in the balloon compress due to the cold atmosphere in the refrigerator which causes the balloon to be smaller.
Yes. energy is increasing inside the balloon causing it to rise in the air. Therefore, kinetic and potential energy is constantly increasing as the balloon floats higher.
Kinetic energy is lowered as the helium inside becomes compressed. Potential energy is stored, and can be released, usually by popping the balloon.
They move faster.Particles on the outside of the balloon are slower.The particles will move faster due to an increase in their kinetic energy.
motion energy
no, when we blow a balloon we actually fill carbon dioxide from aor lungs into it,...so the proportion is not same,there is more carbon dioxide in the balloon as compared to its surroundings as the normal air contains approx 0.4% of carbon dioxide and different percentages of other gasses.
If the two metals are at the same temperature then the atoms in each would have the same average kinetic energy. Temperature is a measure of the "average energy per degree of freedom". To simplify things somewhat, kinetic energy is one of these degrees of freedom and so if they have the same temperature they have the same kinetic energy. Go to the related link below for a fuller understanding of the connection between kinetic energy and temperature.
As we know, Charles's Law states that for a fixed amount of gas at a constant pressure, the volume of the gas changes in the same way that the temperature of the gas changes. So, if a balloon is taken outside on a cold winter day, which means in a low temperature, the volume will also decrease due to the lower temperature.
Its volume will be reduced so it will be deflated. As long as there is no leakage, this is due to the fact that the drop in temperature reduces the kinetic energy of the gas atoms, which decreases the collisions between them and the sides of the balloon, which will cause a reduction in the pressure. As long as there is no leakage of the gas, the helium balloon will re-inflate when the temperature increases.
A water balloon is filled with water, and other balloons are filled with air or helium.
Sleep is vital to your body. if you don't get enough, your body will eventually shut down. actually, its kind of like a balloon, an air filled balloon. sleep is the actual balloon, and the air is your energy, if your sleep, (outer cover of the balloon) is gone somehow (puncture in the balloon) your energy (air) is going to escape. get it??
Density of any balloon depends on the material of the balloon and how much the balloon is filled.
no its filled with hot air from a fire that is lit underneath the balloon.