(v1/t1) = (v2/t2)
6 feet
0.03 3 cents . $3.00 = 300 cents = 100 balloons 30 cents = 10 balloons 3 cents = 1 balloon
A hot air balloon
Is a ballon lighter than one kilogram
Pi is 3.141592 For the first problem: There is a balloon holding up the Pi sign. Click the balloon to pop the balloon. Click the clock to continue. For the second problem: Drag the beads into the arc in the order of the rainbow starting with red. AKA red orange yellow green blue purple violet For the third problem: This is difficult. You need to know the day of pi. Saturday march 14, 1592.
volume decreases considering the pressure is constant
The particles in the balloon slow down as the temperature decreases cause it to deflate
the volume of the balloon decreases because the tempature decreased
Liquid nitrogen has a low temperature, and that obviously decreases the volume of the air inside the balloon. The balloon shrinks
When the balloon is hot the density of the air in it decreases and hence the upward thrust on the balloon increases and the balloon moves up and viceversa.
The balloon will shrink when it goes outside. How much it shrinks will depend on the temperature difference. As temperature decreases the gas(ses) in the balloon decrease in volume causing the balloon to shrink.
When an inflated balloon is exposed to cold air, provided pressure is constant, the volume will decrease. Bring the balloon back to a warmer spot, and the gas gains kinetic energy from the warm air, and the balloon will plump back up.
When the temperature is colder the particles in the balloon travel slower, making the balloon not able to increase in size it decreases.When the temperature is hot it allows the balloon to expand because the particles in the balloon are moving rapidly. in conclusion the the cold makes the balloon decrease in size and the heat allows it to expand.
== == According to Charles's Law, "At constant pressure, the volume of a given mass of an ideal gas increases or decreases by the same factor as its temperature (in Kelvin) increases or decreases." Therefore, if the temperature of the gas is decreased, the volume of the gas will decrease proportionally, and the balloon will contract.
(v1/t1) = (v2/t2)
The hydrogen in a sealed rubber party balloon is compressed slightly by the balloon rubber. So its density decreases a little, its pressure increases, and its temperature increases. But the temperature soon returns to the ambient temperature as heat is lost through the balloon wall. Also, the hydrogen will not stay in the balloon for long because it will leak out through pores in the rubber.
As the bag of balloon rises, the pressure inside the bag of balloon decreases. Air pressure generally decreases as the altitude increases.