A process is carried out at constant pressure. Given that 0 > ΔH > ΔE, Select...

A process is carried out under constant pressure conditions. Given that for this process ΔH <...

A process is carried out under constant pressure conditions. Given that for this process ΔH < 0 < ΔU, which of the following is true? Please Explain Answer a. the system absorbs heat and expands during the process. b. the system absorbs heat and contracts during the process. c. the system loses heat and expands during the process. d. the system loses heat and contracts during the process. e. cannot be determined from the information given

A gas is confined to a cylinder under constant atmospheric pressure, as illustrated in the following...

A gas is confined to a cylinder under constant atmospheric pressure, as illustrated in the following figure. When 0.470 kJ of heat is added to the gas, it expands and does 219 J of work on the surroundings. 1. What is the value of ΔH for this process?Express the energy in kilojoules to three significant digits. 2. What is the value of ΔE for this process? Express the energy in kilojoules to three decimal places.

Consider the following four-process cycle that is carried out on a system of monatomic ideal gas,...

Consider the following four-process cycle that is carried out on a system of monatomic ideal gas, starting from state 1 in which the pressure is 88.0 kPa and the volume is 3.00 liters. Process A is an isothermal process that triples the volume; process B is a constant volume process that returns the system to a pressure of 88.0 kPa; process C is an isothermal process that returns the system to a volume of 3.00 liters; and process D is...

Part A Calculate ΔE, if q= 0.767 kJ and w= -820 J . Part B Determine...

Part A Calculate ΔE, if q= 0.767 kJ and w= -820 J . Part B Determine whether the process is endothermic or exothermic. Part C Calculate ΔE, if a system releases 66.9 kJ of heat to its surroundings while the surroundings do 44.0 kJ of work on the system. Part D Determine whether the process is endothermic or exothermic. Part E Calculate ΔE, if the system absorbs 7.25 kJ of heat from the surroundings while its volume remains constant (assume...

in a bomb calorimeter, reactions are carried out at A. constant pressure B. constant volume C....

in a bomb calorimeter, reactions are carried out at A. constant pressure B. constant volume C. 1 atm pressure and 25C D. 1 atm pressure and 0C The answer is B, can someone explain why? Shouldn't the pressure stay the same also in a bomb calorimeter? Can someone please explain how a bomb calorimeter works in general too.

in the first part of two step process heat is allowed to flow out of an...

in the first part of two step process heat is allowed to flow out of an ideal gas at constant volume so that the presure drop from 2.45atm to 1.70atm the gast the expands at constant pressure from a volume of 5.45l to 7.85L where the tempetrture rekbei it original value . a draw a pv -disgram for this process b , calculate the total work done bu the gas process c does heat flow into or out of the...

Consider the following reaction carried out under constant pressure 6HCl(aq) + 2Al(s) → 3H2(g) + 2AlCl3(s)...

Consider the following reaction carried out under constant pressure 6HCl(aq) + 2Al(s) → 3H2(g) + 2AlCl3(s) Δ Hrxn = -4.04×102 kJ Calculate the heat associated with the complete reaction of 4.38×102 g of HCl with 67.0 g of Al. Show all work. A.-4.85×103 kJ B.-3.96×102 kJ C.-8.08×102 kJ D.-5.01×102 kJ E.-1.00×103 kJ

Consider a process that occurs at constant volume. The initial volume of gas is   2.30 L  ,...

Consider a process that occurs at constant volume. The initial volume of gas is   2.30 L  , the initial temperature of the gas is   26.0 °C  , and the system is in equilibrium with an external pressure of 1.2 bar (given by the sum of a 1 bar atmospheric pressure and a 0.2 bar pressure due to a brick that rests on top of the piston). The gas is heated slowly until the temperature reaches  51.2 °C  . Assume the gas behaves ideally, and...

The constant-pressure heat capacity of a sample of a perfect gas was found to vary with...

The constant-pressure heat capacity of a sample of a perfect gas was found to vary with temperature according to the expression Cp (J K−1) = 20.17 + 0.4001(T/K). Calculate q, w, ΔU, and ΔH when the temperature is raised from 0°C to 100°C (a) at constant pressure, (b) at constant volume.

For a constant pressure of 10^5 Pa, determine the amount of heat needed for the process...

For a constant pressure of 10^5 Pa, determine the amount of heat needed for the process of taking 2.5 mol h2o from solid state at 0 C to its vapor state at 100 C.