find the specific volume and mass of CO2 in a spherical vessel if the pressure is...

Find the specific volume and mass of CO2 in a spherical vessel if the pressure is...

Find the specific volume and mass of CO2 in a spherical vessel if the pressure is 200 kPa and the temperature is 50 oC. The radius of the vessel is 4 m. The volume of a sphere is 4/3 πr3. Give your answer in m3/kg .

A spherical vessel used for deep-sea exploration has a radius of 1.49 m and a mass...

A spherical vessel used for deep-sea exploration has a radius of 1.49 m and a mass of 1.22 104 kg. To dive, the vessel takes on mass in the form of sea water. Determine the amount of mass that the vessel must take on if it is to descend at a constant speed of 1.40 m/s, when the resistive force on it is 1102 N in the upward direction. The density of seawater is 1.03 103 kg/m3.

1)Consider water at 500 kPa and a specific volume of 0.2 m3/kg. What is the temperature...

1)Consider water at 500 kPa and a specific volume of 0.2 m3/kg. What is the temperature (in °C)? Consider water at 500 kPa and a specific volume of 0.2 m3/kg. What is the quality (on a 0 to 1 scale)? 2) Consider water at 1400 kPa and 200°C. What is the specific volume (in m3/kg)? 3) Consider ammonia​ at 550 kPa and a quality of 0.75. What is the average specific volume (in m3/kg)?

The specific volume of water at atmospheric pressure (taken to be 100 kPa) at 600 degrees...

The specific volume of water at atmospheric pressure (taken to be 100 kPa) at 600 degrees C is: Select one: a. 0.4011 m3/kg b. 0.038378 m3/kg c. 0.001043 m3/kg d. 1.6941 m3/kg e. 4.0279 m3/kg f. Insufficient information to answer question

A spherical object has a mass of 1500 kg. Its radius is R = 1.0 m....

A spherical object has a mass of 1500 kg. Its radius is R = 1.0 m. a. Determine if it floats or sinks in water. Water density = 1000 kg/m^3. Volume of sphere = (4/3)πR 3 . b.  If it floats, what % of its volume is above water?

Atmospheric pressure is 100 kPa in a system of cylinders and pistons.The mass of the piston...

Atmospheric pressure is 100 kPa in a system of cylinders and pistons.The mass of the piston is 4 kg and the area of ​​the piston is 4.0 cm2. The following process takes place by external heat transfer. (Gravity acceleration is 10 m / s2). 1. Calculate the pressure inside the cylinder in kPa. 2. The cylinder contains 0.1 kg of water vapor, and the temperature of the water vapor is 150oC. Find the volume and internal energy of water vapor...

An ideal monatomic gas is contained in a vessel of constant volume 0.400 m3. The initial...

An ideal monatomic gas is contained in a vessel of constant volume 0.400 m3. The initial temperature and pressure of the gas are 300 K and 5.00 atm, respectively. The goal of this problem is to find the temperature and pressure of the gas after 18.0 kJ of thermal energy is supplied to the gas. (a) Use the ideal gas law and initial conditions to calculate the number of moles of gas in the vessel. 80.99 Correct: Your answer is...

Air with a mass of 2 kg is heated at a constant pressure of 200 kPa...

Air with a mass of 2 kg is heated at a constant pressure of 200 kPa to a temperature of 500°C. Calculate the entropy change if the initial volume is 0.8 m3. Take ???? = 1.00 kJ/kg ? K and model air as an ideal gas. (Hint: Use the appropriate TdS [Gibbs] relation to calculate entropy change.)

A steady-state, steady-flow (Steady State Steady Flow) control volume (with single inflow and outflow) undergoes a...

A steady-state, steady-flow (Steady State Steady Flow) control volume (with single inflow and outflow) undergoes a reversible polytropic process from state 1 to state 2. The process involves water and the following data are given: Inflow pressure: P1 = 100kPa Inflow specific volume: v1 = 1.39478862 m3/kg Outlfow temperature: T2 = 150 oC Outflow specific volume: v2 = 1.93636 m3/kg Determine the following: (Neglect changes in kinetic and potential energy) 1. h1 (specific enthalpy at the inflow, in kJ/kg) 2....

In a copper vessel with a temperature of t1 = 350 C, m2 = 600 g...

In a copper vessel with a temperature of t1 = 350 C, m2 = 600 g of ice with a temperature of t1 = 10 C. After some time a Mixture of m3 = 550 g ice and m4 = 50 g water. Find the mass of the vessel m1. In the solution, neglect the heat exchange between the vessel and environment. The specific heat capacity of copper is cK = 0:39 kJ/(kg*K). The specific Heat capacity of the ice...