0.50 mole of Neon gas is placed inside a 0.250 cm³ rigid container at 27°C. Calculate the pressure (in kPa) inside the container.
Q: Two moles of an ideal gas are placed in a container whose volume is 2.6 x 10-3 m³. The absolute…
A: Number of moles (n) = 2 Pressure (P) = 3.1 × 105 Pa Volume (V) = 2.6 × 10-3 m3
Q: The gauge pressure in your car tires is 2.6 × 10° Pa at a temperature of 35.0°C when you drive it…
A:
Q: The gauge pressure in your car tires is 2.55 × 105 Pa at a temperature of 35.0°C when you drive it…
A: Given data: Initial gauge pressure (P1) = 2.55×105 Pa Initial temperature (T1) = 35.0°C = 308 K…
Q: What is the RMS speed (in m/s) of a gas molecule, with mass 3.26x10-26 kg at a temperature of 97…
A: Given thatmolecular mass=3.26×10-26 kg1 mole=6.022 × 1023 molecular entitiesmolar mass…
Q: Suppose there is a sample of xenon in a sealed rectangular container. The gas exerts a total force…
A: Given that total force exerted by the gas and dimension of the container wall.Then We have to…
Q: The car tire is filled to an absolute pressure of 2.80 ATM (atmospheric pressure) at a temperature…
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Q: A bigh-altitude balloon is partially filled with 3 m of helium at sea level. As the balloon ascends…
A: Boyle's law define that the product of pressure and volume remains constant. P1V1 = P2V2 P1 = 1 atm…
Q: An ideal gas occupies a volume of 1.6 cm3 at 20°C and atmospheric pressure. Determine the number o
A: Given:- The volume of the gas V=1.6 cm3 Temperature of the gas T= 20o C = 20+ 273.15 = 293.15 K…
Q: 2.52 moles of an ideal gas are placed in a container whose volume is 8.17 x10−3 m3. The absolute…
A:
Q: An ideal gas in a 0.15 m cubed container has a pressure of 1.50 times 10 to the 4th power N/m…
A: An ideal gas in a 0.15 m cubed container has a pressure of 1.50 times 10 to the 4th power N/m…
Q: What is the RMS speed (in m/s) of a gas molecule, with mass 3.40x10-26 kg at a temperature of 70…
A: Given data The mass of the gas molecule is M = 3.40 x 10-26 kg. The temperature of the gas molecule…
Q: A spherical balloon is made from a material whose mass is 3.01 kg. The thickness of the material is…
A: Given that- M=3.01kg Radious of ballon(R) =1.84m Temperature(T)=292 K Denesity of surrounding…
Q: Four moles of an ideal gas are confined to a 35-liter container at a temperature of 30ºC. What is…
A: Given data *The number of moles is n = 4 moles *The volume of the container is V = 35 L *The given…
Q: A pressure cooker is a covered pot sealed everywhere except for a small circular opening in the top.…
A: Radius, r = 0.548 mm = 0.548×10-3 m = 0.000548 mForce, F = 0.785 N
Q: A vehicle tire is inflated with air initially at 15°C and normal atmospheric pressure. During the…
A: a) Given info : The initial pressure is Pi=1 atm. The initial and final temperaturesare Ti=15°C and…
Q: 200 grams of an ideal gas are kept in a tank at a temperature of 20°C. The gauge pressure in the…
A: Given data as per question M = 200gm T = 293K P = 15KPa
Q: A hot air balloon uses the principle of buoyancy to create lift. By making the air inside the…
A: Let m be the mass of the air inside the balloon.
Q: A) At 100C mercury has a specific weight of 130.4 kN/m 3.What volume of the mercury would weigh 2.25…
A: Historically known as quicksilver, metallic mercury is a silvery-white metal that is liquid at room…
Q: A cylinder is compressing an ideal gas at constant temperature of 25°C. Initially, the gas had a…
A: In this question , initial temperature , volume and pressure of the ideal gas are given and gas…
Q: When a.22-caliber rifle is fired, the expanding gas from the burning gunpowder creates a pressure…
A: Given: The mass of the bullet is m = 2.6 x 10-3 kg The initial velocity of the bullet is u = 0 The…
Q: A spherical balloon is made from a material whose mass is 4.28 kg. The thickness of the material is…
A: The mass of the balloon is (m) = 4.28kgradius of balloon (r) = 1.43mtemperature (T)= 289 Kdensity of…
Q: What is the RMS speed (in m/s) of a gas molecule, with mass 3.63x10-26 kg at a temperature of 98…
A: The RMS speed is, v=3RTNm
Q: What is the gauge pressure of a 0.04 m³ tank holding 107 g of argon gas at 20 C? The molecular…
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Q: Nitrogen gas under an initial pressure of 5.0×106 Pa at 15 ºC is contained in a cylinder of volume…
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Q: The pressure of sulfur dioxide (SO2) is 2.44 x 104 Pa. There are 433 moles of this gas in a volume…
A: Given: The pressure of the gas is 2.44x104 Pa. The volume of the gas is 58.5 m3. The number of the…
Q: How many atoms of helium gas fill a balloon of diameter 17 cm at 35.0°C and 2.00 atm?
A: An ideal gas is the one in which the intermolecular separation is quite large and the intermolecular…
Q: A hot air balloon uses the principle of buoyancy to create lift. By making the air inside the…
A:
Q: 2.97 moles of an ideal gas are placed in a container whose volume is 8.35 x10−3 m3. The absolute…
A: Given : n = 2.97 moles V = 8.35 x 10-3 m3 P = 7.2 x105 Pa
Q: What is the RMS speed (in m/s) of a gas molecule, with mass 4.3x10-26 kg at a temperature of 98…
A:
Q: Helium has 4 gram/mole mass. There is a helium storage container that has 38 kg of the gas at 273 K…
A: molar mass = 4 gram/mole = 4 x 10-3 kg/mole m' = 38 kg T = 273 K P' = 1.013 x 105 N/m2 R = 8.314…
Q: A basketball is pressurized to a gauge pressure of PG = 55 kPa when at the surface of a swimming…
A: Gauge pressure,
Q: A sample of argon gas is in a container at 35.0 C and 1.22 atm pressure. The radius of an argon atom…
A: An ideal gas is a theoretical gas made of point particles that are in random motion. The particles…
Q: 1.88 moles of an ideal gas are placed in a container whose volume is 4.88 x10−3 m3. The absolute…
A:
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- If 2.00 mol of nitrogen gas (N2) are placed in a cubic box, 34.0 cm on each side, at 2.50 atm of pressure, what is the rms speed of the nitrogen molecules? 730.13 * m/sThe absolute pressure in your car tires is 3.7 × 105 Pa at a temperature of 35.0°C when you drive it onto a ferry boat to Alaska a. What is the absolute pressure of the tires, in pascals, later when the temperature has dropped to -40.0°C? Assume the volume of each tire does not change.A cylinder containing ideal gas is sealed by a piston that is above the gas. The piston is a cylindrical object, with a weight of 22.0 N, which can slide up or down in the cylinder without friction. The inner radius of the cylinder, and the radius of the piston, is 8.00 cm. The top of the piston is exposed to the atmosphere, and the atmospheric pressure is 101.3 kPa. The cylinder has a height of 30.0 cm, and, when the temperature of the gas is 20°C, the bottom of the piston is 11.0 cm above the bottom of the cylinder. (A) Find the number of moles of ideal gas in the cylinder. (B) Heat is added, gradually raising the temperature of the gas to 160°C. Calculate the distance between the bottom of the cylinder and the bottom of the piston when the piston comes to its new equilibrium position.
- A large cylindrical tank contains 0.760 m3 of nitrogen gas at 20.0 ∘C and 1.45×105 Pa (absolute pressure). The tank has a tight-fitting piston that allows the volume to be changed. What will be the pressure if the volume is decreased to 0.410 m3 and the temperature is increased to 159 ∘C? Express your answer in pascals.15.01 A cylindrical tank has a tight-fitting piston that allows the volume of the tank to be changed. The tank originally contains 0.100 m3m3 of air at a pressure of 3.10 atm. The piston is slowly pulled out until the volume of the gas is increased to 0.390 m3 . If the temperature remains constant, what is the final value of the pressure? Express your answer in atmospheres.The gauge pressure in your car tires is 2.55 × 105 Pa at a temperature of 35.0°C when you drive it onto a ferry boat to Alaska. What is the gauge pressure of the tires, in pascals, later when the temperature has dropped to -40.0°C? Assume the volume of each tire does not change.
- The pressure in an automobile tire depends on the temperature of the air in the tire. When the air temperature is 25°C, the pressure gage reads 210 kPa. If the volume of the tire is 0.025 m³, determine the pressure rise in the tire when the air temperature in the tire rises to 44°C. Also, determine the amount of air that must be bled off to restore pressure to its original value at this temperature. kJ kPa.m³ kJ Assume the atmospheric pressure to be 100 kPa. The gas constant of air is R = 0. 287- = 0.287 kg-K The pressure rise in the tire is 210.2 kPa. The amount of air that must be bled off to restore pressure to its original value is 0.000825 kg. kPa.m³ kg.KAn ideal gas at 7°C is in a spherical flexible container having a radius of 1.04 cm. The gas is heated at constant pressure to 88°C. Determine the radius of the spherical container after the gas is heated. [Volume of a sphere = (4/3)?r3.]A quantity of an ideal gas is stored in a rigid container of constant volume. If the gas is originally at a temperature of 23.1 oC, at what temperature will the pressure of the gas double from its original value? Give your answer in degrees C.