using the formula P= K x V or P=K/V calculate the constant K pressure kPa=100.21 temperature...
using the formula P= K x V or P=K/V calculate the constant K
pressure kPa=100.21
temperature = 24.0 oC
someone answered that the answer is 4.17541 . but i want to know if that answer is in joules , cm ,L or something else ? can someone help like in complete answer so i know the step thx
Homework Answers
The S.I. unit for that should be used in the solution are as follows:
Pressure ( in Pascal)
Temperature (in Kelvin)
Volume (in Metre cube)
K (in Joules / Kelvin)
So the answer should be in units Joules / Kelvin.
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using the formula P= K x V or P=K/V calculate the constant K
pressure kPa=100.21
temperature...
(V) DATA AND RESULTS: 3 Pressure. P (kPa) Volume, V (L) PxV_(kPa*L) 1P. (1/kPa) 114.821 1.5...
(V) DATA AND RESULTS: 3 Pressure. P (kPa) Volume, V (L) PxV_(kPa*L) 1P. (1/kPa) 114.821 1.5 172.2315 0.0087092082 117.757 0.0084920642 141.3084 108.5544 120.616 09 0.008290774 123.346 0.6 74.0076 0.0081072755 126.048 04 50.4192 0.0079334857 VI) QUESTIONS: State the relationship between pressure and volume as stated by Boyle's law. Remember to state the condition of temperature. (W) Is the Boyle's law confirmed by your graph? Explain If the pressure of a sample of gas in a cylinder is 760 mm of Hg...
An argon (Cp = 0.518 KJ/kg. K, and K=1.67) has velocity V = 750 m/s, pressure P =120 kPa
An argon (Cp = 0.518 KJ/kg. K, and K=1.67) has velocity V = 750 m/s, pressure P =120 kPa, and temperature T = 175 °C. If the argon is at stagnation state, calculate the pressure (P0) and temperature (T0).
please answer question 5. Pressure - Temperature Relationship Calculated constant, k (P.1) Data and Calculations for...
please answer question 5.
Pressure - Temperature Relationship Calculated constant, k (P.1) Data and Calculations for Temperature Pressure Relationship Pressure Temperature Temperature Calculated (kPa) (°C) (K) Constant, (P/T) 100.88 26.0 299.15 0.33122 105.13 60.1 333.25 0.31547 106.33 75.5 348.65 10.30498 108.40 83.5 35b.bs 0.30394 110.38 95.0 318.15 0.29982 30178.252 350 34 573 37071.955 138660.86 40636.97 Processing the data 1. A way to determine if a relationship is inverse or direct is to find a proportionality constant, k, from the data....
3. 1.0 L of pure H2O(g) at T = 298 K, P = Po is mixed with 1.0 L of pure NH3 (g) at T = 298 K, P = P. The mixing is...
3. 1.0 L of pure H2O(g) at T = 298 K, P = Po is mixed with 1.0 L of pure NH3 (g) at T = 298 K, P = P. The mixing is carried out at constant temperature and pressure. Determine AG, in Joules, of this process (10 points) when the gases are treated as ideal, (10 points) when the gases are treated as real gases with 120 = 0.85, V = 0.73, 179120 = 1.1, i = 0.7....
In an Otto cycle air is compressed from an initial pressure 120 kPa and temperature 370...
In an Otto cycle air is compressed from an initial pressure 120 kPa and temperature 370 T (K). The cycle has compression ratio of 10. In the constant volume heat addition process 1000 kJ/kg heat is added into the air. Considering variation on the specific heat of air with temperature, determine, (a) the pressure and temperature at the end of heat addition process (show the points on P-v diagram) (b) the network output (c) the thermal efficiency (d) the mean...
When air expands adiabatically (without gaining or losing heat), its pressure P and volume V are...
When air expands adiabatically (without gaining or losing heat), its pressure P and volume V are related by the equation PV 1.4 = C, where is a constant. Suppose that at a certain instant the volume is 500 cm and the pressure is 80 kPa and is decreasing at a rate of 10 kPa/min. At what rate is the volume increasing at this instant? (Round your answer to the nearest whole number.) cm/min When air expands adiabatically (without gaining or...
deal gases obey the equation PV nRT, where P is the pressure of the gas, V is its volume, n is the number of moles of gas, T is its temperature, and the constant R-8.314 KPa-liters-mol-1 kelvin-1...
deal gases obey the equation PV nRT, where P is the pressure of the gas, V is its volume, n is the number of moles of gas, T is its temperature, and the constant R-8.314 KPa-liters-mol-1 kelvin-1 (a) Find the exac t change in volume of O, gas as the pressure increases from 12.00 to 12.01 KPa, the temperature decreases from 300.0 to 299.9 degrees kelvin, and the number of moles of 0, gas changes from 1.03 to 1.01 moles....
A jet engine propels an aircraft at 254 m/s through air at 39 kPa and 273 K. The compressor pressure ratio is 9 and the temperature at the turbine inlet is 873 K. b) Taking the pressure in the combust...
A jet engine propels an aircraft at 254 m/s through air at 39 kPa and 273 K. The compressor pressure ratio is 9 and the temperature at the turbine inlet is 873 K. b) Taking the pressure in the combustion chamber as 843.5 kPa and the temperature at the turbine exit to be 518 K, determine the velocity of the exhaust gases. Give your answer in m/s to 2 decimal places. Assume ideal operation for all components and constant specific...
An argon (Cp= 0.518 KJ/kg.k, and K= 1.67) has velocity V =750m/s, pressure P = 120...
An argon (Cp= 0.518 KJ/kg.k, and K= 1.67) has velocity V =750m/s, pressure P = 120 kPa, and temperature T = 175 C. If the argon is at stagnation state, calculate the pressure (P0) and temperature (T0).
The ideal gas law (PV=nRT) describes the relationship among pressure P, volume V, temperature T, and...
The ideal gas law (PV=nRT) describes the relationship among pressure P, volume V, temperature T, and molar amount n. Fix n and V When n and V are fixed, the equation can be rearranged to take the following form where k is a constant: PT=nRV=k or (PT)initial=(PT)final This demonstrates that for a container of gas held at constant volume, the pressure and temperature are directly proportional.The relationship is also called Gay-Lussac's law after the French chemist Joseph-Louis Gay-Lussac, one of...
(V) DATA AND RESULTS: 3 Pressure. P (kPa) Volume, V (L) PxV_(kPa*L) 1P. (1/kPa) 114.821 1.5 172.2315 0.0087092082 117.757 0.0084920642 141.3084 108.5544 120.616 09 0.008290774 123.346 0.6 74.0076 0.0081072755 126.048 04 50.4192 0.0079334857 VI) QUESTIONS: State the relationship between pressure and volume as stated by Boyle's law. Remember to state the condition of temperature. (W) Is the Boyle's law confirmed by your graph? Explain If the pressure of a sample of gas in a cylinder is 760 mm of Hg...
please answer question 5.
Pressure - Temperature Relationship Calculated constant, k (P.1) Data and Calculations for Temperature Pressure Relationship Pressure Temperature Temperature Calculated (kPa) (°C) (K) Constant, (P/T) 100.88 26.0 299.15 0.33122 105.13 60.1 333.25 0.31547 106.33 75.5 348.65 10.30498 108.40 83.5 35b.bs 0.30394 110.38 95.0 318.15 0.29982 30178.252 350 34 573 37071.955 138660.86 40636.97 Processing the data 1. A way to determine if a relationship is inverse or direct is to find a proportionality constant, k, from the data....
3. 1.0 L of pure H2O(g) at T = 298 K, P = Po is mixed with 1.0 L of pure NH3 (g) at T = 298 K, P = P. The mixing is carried out at constant temperature and pressure. Determine AG, in Joules, of this process (10 points) when the gases are treated as ideal, (10 points) when the gases are treated as real gases with 120 = 0.85, V = 0.73, 179120 = 1.1, i = 0.7....
When air expands adiabatically (without gaining or losing heat), its pressure P and volume V are related by the equation PV 1.4 = C, where is a constant. Suppose that at a certain instant the volume is 500 cm and the pressure is 80 kPa and is decreasing at a rate of 10 kPa/min. At what rate is the volume increasing at this instant? (Round your answer to the nearest whole number.) cm/min When air expands adiabatically (without gaining or...
deal gases obey the equation PV nRT, where P is the pressure of the gas, V is its volume, n is the number of moles of gas, T is its temperature, and the constant R-8.314 KPa-liters-mol-1 kelvin-1 (a) Find the exac t change in volume of O, gas as the pressure increases from 12.00 to 12.01 KPa, the temperature decreases from 300.0 to 299.9 degrees kelvin, and the number of moles of 0, gas changes from 1.03 to 1.01 moles....
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