Wiki User
∙ 15y ago(v1/t1) = (v2/t2)
Wiki User
∙ 15y agoalexus lee
Wiki User
∙ 13y ago(v1/v1)(v2/v2)
The ideal gas law equation, PV = nRT, would be the easiest to use to find the final temperature in this scenario. The initial and final states of the helium inside the weather balloon are known, including the volume, initial temperature, and pressure. By rearranging the ideal gas law equation to solve for the final temperature, you can calculate the temperature at the new state of the system.
K Clemons
A weather balloon full of helium with a volume of 27.1 L at 28°C is sitting
inside an aircraft hangar. The temperature of the hangar increases to 33°C.
Which equation would be easiest to use to find the new volume of the
balloon?
VICENTE
(V1/T1)=(V2/T2)
GSoda
(V1/T1)=(V2/T2).
Laury Homenick
Yes, temperature can affect the maximum size you can inflate a balloon. In general, as temperature increases, the air molecules inside the balloon expand, allowing for a larger maximum size before the balloon bursts. Conversely, in colder temperatures, the air molecules contract, limiting the maximum size the balloon can reach.
Blowing a balloon is an example of Avogadro's law because as you blow air into the balloon, the number of gas molecules increases. This results in an increase in volume within the balloon while keeping the pressure and temperature constant, illustrating the relationship between the volume and the number of gas molecules in the balloon.
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.
When a balloon is exposed to heat, the air inside it expands due to increased temperature. As a result, the pressure inside the balloon increases, causing it to expand and potentially burst. If a balloon decreases in size after being in heat, it may be due to the balloon losing some of its original air through small pores or leaks in the material.
The particles in the balloon slow down as the temperature decreases cause it to deflate
When the temperature increases, the air inside the balloon will expand, causing the balloon to inflate. If the temperature increase is too drastic, the pressure inside the balloon can exceed its limits and cause it to burst. However, this depends on the material and durability of the balloon.
It would increase. The balloon would expand because when temperature increases, volume increases as well.
Jacques Charles law, also known as Charles's law, describes the relationship between the volume and temperature of a gas. In aerodynamics, this law is relevant when considering how changes in temperature affect the air density, which in turn affects lift and drag forces experienced by aircraft. Warmer air is less dense and can result in reduced lift, while cooler air is denser and can enhance aircraft performance.
Yes, a difference in air temperature can affect the size of a balloon. When air temperature increases, the air inside the balloon expands, causing the balloon to inflate. Conversely, when air temperature decreases, the air inside the balloon contracts, causing the balloon to deflate.
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.
The speed of the particles inside the air-filled balloon increases as the temperature increases. This is because higher temperatures provide more thermal energy to the particles, causing them to move faster.
The volume of a hot air balloon increases as the air inside the balloon expands when it is heated. As the balloon ascends and the air temperature decreases, the volume of the air inside the balloon decreases as well. The pilot can control the altitude of the balloon by controlling the temperature of the air inside.
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.
The volume will increase in proportion to the increase in absolute temperature.
(v1/t1) = (v2/t2)
Temperature affects the gas in a balloon by changing the volume of the gas inside. As temperature increases, the gas molecules move faster and take up more space, causing the balloon to expand. Conversely, a decrease in temperature causes the gas molecules to slow down and the balloon to shrink.
The volume of the weather balloon would increase. This is because as the temperature of a gas increases, the molecules move faster and spread out more, leading to an increase in volume according to Charles's Law.