a)
P*V is constant.
So, if we take balloon to a place where pressure is lower, its
volume would increase.
This is shown by C
Answer: C
b)
The pressure is not changing.
So, volume will not change.
Answer: B
c)
P*V is constant.
So, if we take balloon to a place where pressure is higher, its
volume would decrease.
This is shown by A
Answer: A
8.12 A balloon is filled with helium gas. When each of the following changes are made with no change in temperature...
A small balloon of the volume 2 × 10−3 m3 is filled with the helium gas at atmospheric pressure p = 100 kPa and a temperature 15◦C. Once we release the balloon it rises rapidly to an altitude at which the atmospheric pressure drops by 5 %. At that point the balloon breaks. Consider that the process is adiabatic.
An arctic weather balloon is filled with 21.2 L of helium gas
inside a prep shed. the temperature inside the shed is 5° C. The
balloon is then taken outide, where the temperature is -20°C.
calculate the new volume of the balloon.
O GASES Using Charles's Law an arctic weather balloon is filled with 21.2 L of helium gas inside a prep shed. The temperature inside the shed is 5. °C. The balloon is then taken outside, where the temperature...
Fun with a helium balloon A loosely filled balloon contains 4.5 liters of helium gas at atmospheric pressure (PA = 101 kPa) and room temperature T = 20 C. The gas in the balloon is then heated to body temperature, 37 C, by a student. (a) The pressure inside the balloon changes very little during the heating process. What is the change in the volume of the balloon? (b) How much work does the expanding balloon do on its environment?...
An arctic weather balloon is filled with 12.4L of helium gas inside a prep shed. The temperature inside the shed is 11.°C. The balloon is then taken outside, where the temperature is −45.°C. Calculate the new volume of the balloon.You may assume the pressure on the balloon stays constant at exactly 1atm. Round your answer to 3 significant digites
An arctic weather balloon is filled with 12.8L of helium gas inside a prep shed. The temperature inside the shed is 6.°C. The balloon is then taken outside, where the temperature is −8.°C. Calculate the new volume of the balloon. You may assume the pressure on the balloon stays constant at exactly 1atm. Be sure your answer has the correct number of significant digits.
An arctic weather balloon is filled with 11.0 L of helium gas inside a prep shed. The temperature inside the shed is 12. °C. The balloon is then taken outside, where the temperature is – 41. °C. Calculate the new volume of the balloon. You may assume the pressure on the balloon stays constant at exactly 1 atm. Round your answer to 3 significant digits. x s ?
An arctic weather balloon is filled with 36.6 L of helium gas inside a prep shed. The temperature inside the shed is 10. "C. The balloon is then taken outside, where the temperature is 10. C. Calculate the new volume of the balloon You may assume the pressure on the balloon stays constant at exactly atm. Round your answer to 3 significant digits
An arctic weather balloon is filled with 33.8 L of helium gas inside a prep shed. The temperature inside the shed is 9. °C. The balloon is then taken outside, where the temperature is -29. C. Calculate the new volume of the balloon, You may assume the pressure on the balloon stays constant at exactly 1 atm. Round your answer to 3 significant digits. X $ ?
An arctic weather balloon is filled with 1.73 L of helium gas inside a prep shed. The temperature inside the shed is 15. °C. The balloon is then taken outside, where the temperature is 7. °C. Calculate the new volume of the balloon. You may assume the pressure on the balloon stays constant at exactly 1 atm. Round your answer to 3 significant digits. x10 olo ? X 18 Ar
A helium-filled balloon escapes a child’s hand at sea level and 20.0°C. When it reaches an altitude of 3600m, where the temperature is 5.0°C and the pressure only 0.68 atmospheres (atm), how will its volume compare to that at sea level? Hint: Assume helium is an Ideal Gas. Note that at sea level, the atmospheric pressure is 1.0 atm. show all work please