a tank is filler with 20kg of oxygen at pressure 4x10^5 Pa and temperature 47°C. the tank has small hole so some leaks out.on a certain day , when temperature is 27°C and the gas preassure inside the tank is is 3x10^5 Pa , determine the mass leaks of oxygen that out the tank
a tank is filler with 20kg of oxygen at pressure 4x10^5 Pa and temperature 47°C. the...
A welder using a tank of volume 7.40×10^−2 m^3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.05×10^5 Pa and temperature of 38.8 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 21.3 ∘C, the gauge pressure of the oxygen in the tank is 1.70×10^5 Pa . Find the initial mass of oxygen in kg. Find the...
A welder using a tank of volume 7.30×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.30×105 Pa and temperature of 36.8 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 22.9 ∘C, the gauge pressure of the oxygen in the tank is 1.60×105 Pa .Find the initial mass of oxygen.Find the mass of oxygen that...
A welder using a tank of volume 7.40×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 2.85×105 Pa and temperature of 37.6 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 22.3 ∘C, the gauge pressure of the oxygen in the tank is 2.00×105 Pa . A. Find the initial mass of oxygen. B. Find the...
A welder using a tank of volume 7.50×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.10×105 Pa and temperature of 37.9 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 21.9 ∘C, the gauge pressure of the oxygen in the tank is 1.70×105 Pa . Part A Find the initial mass of oxygen. Part B...
A welder using a tank of volume 7.50×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.25×105 Pa and temperature of 37.9 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 22.6 ∘C, the gauge pressure of the oxygen in the tank is 1.60×105 Pa . Part A Find the initial mass of oxygen. (in Kg)...
A welder using a tank of volume 8.00x10-2 mºfills it with oxygen (with a molar mass of 32.0 g/mol) at a gauge pressure of 3.00x105 Pa and temperature of 36.4°C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 24.0 °C, the gauge pressure of the oxygen in the tank is 2.00x109 Pa. Part A Find the initial mass of oxygen. VALD O a ? Submit Previous...
Part A A welder using a tank of volume 7.60x10-2 m fills it with oxygen (with a molar mass of 32.0 g/mol) at a gauge pressure of 2.90x105 Pa and temperature of 38.6°C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 23.7°C, the gauge pressure of the oxygen in the tank is 1.60x105 Pa. Find the initial mass of oxygen. Express your answer in kilograms. VALD...
A welder using a tank of volume 7.10×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.30×105 Pa and temperature of 37.6 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 22.4 ∘C, the gauge pressure of the oxygen in the tank is 2.00×105 Pa . Part A Part complete Find the initial mass of oxygen....
(25 pts) We have a tank of volume V which contains an ideal gas at constant temperature T and initial pressure Po. There is a small hole in the tank and gas leaks out at a velocity of (RT)5, We can use a molar density 1. Recall that mols in tanke ρν and molar rate out-pud where u-velocity and A - area of hole. Derive the differential equation for P vs t (hint it's a simple exponential) a. drop in...
A rigid tank contains 65.5 g of chlorine gas (Cl2) at a temperature of 73 °C and an absolute pressure of 5.60 × 10 5 Pa. The mass per mole of Cl2 is 70.9 g/mol. Determine the volume of the tank.