A container of neon gas has the following properties:(1) 2.4 moles(2) T = 400 K(3) p = 0.8 atm.Calculate the entropy in J K-1 as a number in normal form accurate to 1 decimal place (X.X or XX.X, etc.). Do not include units in your answer.USE THE EXACT METHOD IN THE PICTURE BELOW, JUST SUB IN THE NEW VALUES IN THE QURSTION AND REPLACE THEM IN THE IMAGE PROVIDED. 2 Calculate the entropyfor 2,3 moles ofat T: 289 K and p:0.8 atmneon gasT= 289 K1 mol = 6,02<10 atonsNe = 20.18 gp=0.8 atm =81040 Pam= 20.1896.022치03= 2.64 x 10%3.35 x 10 ka-232r (1.055 a 10 3)=-34*- 1.,055x 10 J-S21040(1:38 -10*)(289) = 2.03 × 103k= 1.38|x 1o /K-23KTNA 6.022 10S= Nk [ln () + = (19.196) l2.64 x10%2.03 x 109N=nNA= (2.3) (6.022 지6)*1.39 x 10*S: 539.2mol-kNK : (1.3f- 10")(1381 10)= 19.196

The number of moles in the neon gas is given as, n=2.4 moles, The temperature of the gas is given…

A container of neon gas has the following properties: (1) 2.4 moles (2) T = 400 K (3) p = 0.8 atm. Calculate the entropy in J K-1 as a number in normal form accurate to 1 decimal place (X.X or XX.X, etc.). Do not include units in your answer.

A container of neon gas has the following properties: (1) 2.4 moles (2) T = 400 K (3) p = 0.8 atm. Calculate the entropy in J K-1 as a number in normal form accurate to 1 decimal place (X.X or XX.X, etc.). Do not include units in your answer.

Related questions

Q: Problem 3.14. Experimental measurements of the heat capacity of aluminum at low temperatures (below…

Q: Consider the reaction represented below, which is spontaneous at 298K SO2(g) + 2 NH3(g) → SO(NH2)2…

A: For the reaction. SO2(g) + 2 NH3(g) → SO(NH2)2 (s) + H2O(l) Reactant side: Total mole=3 and all are…

Q: The equation of state for van der waals gas is given as follows (P+) (V – b) = RT with a and b are…

Q: Calculate the efficiency of the Carnot engine for ideal gas. Consider the figure below for a…

A: Efficiency of carnot's engine for ideal gas is ,η=TH-TCTH×100%

Q: Two hundred twenty grams of water at 0°C is brought into contact into thermal equilibrium…

Q: The entropy change of one mole of an ideal gas of vibrating diatomic molecules, as volume and…

Q: Directions: Assume all numbers are good to 3 sig. figs. unless otherwise stated. Show all work for…

A: Hello. Since your question has multiple sub-parts, we will solve first three sub-parts for you. If…

Q: An ideal diatomic gas initially has a pressure of 2.00x10°Pa , a volume of 4.00m³ and a temperature…

A: If you get a question that has 3 or less than 3 subparts we will HAVE TO ANSWER that question and…

Q: low many possible arrangements are there for a deck of 52 palying cards? (for implicity, consider…

Q: The following problems involve one mole of an ideal monatomic gas, CP = 5R/2, in a variable volume…

A: Solution: Given that, Consider a monoatomic gas is CP = 5R/2 Initial conditions are: T i = 25oC,…

Q: Given the PV diagram of a fixed quanity of CO2 assumed to be an ideal gas. The temperature at point…

Q: ideal Suppo se 1 mole of some monoatomic gas goes through an ent irreversible adiabatic tream…

Q: Your calculator can't handle enormous exponents, but we can make sense of large powers of e by…

A: PART A Given that e=10^a Then find out value of a so now . take the ln given equation so ln(e)…

Q: 1) Answer each question TRUE or FALSE, and explain your answer briefly. A few sentences (with an…

Q: Your calculator can't handle enormous exponents, but we can make sense of large powers of e by…

Question

A container of neon gas has the following properties:

(1) 2.4 moles

(2) T = 400 K

(3) p = 0.8 atm.

Calculate the entropy in J K^-1 as a number in normal form accurate to 1 decimal place (X.X or XX.X, etc.). Do not include units in your answer.

USE THE EXACT METHOD IN THE PICTURE BELOW, JUST SUB IN THE NEW VALUES IN THE QURSTION AND REPLACE THEM IN THE IMAGE PROVIDED.

2 Calculate the entropy
for 2,3 moles of
at T: 289 K and p:0.8 atm
neon gas
T= 289 K
1 mol = 6,02<10 atons
Ne = 20.18 g
p=0.8 atm =
81040 Pa
m= 20.189
6.022치03
= 2.64 x 10%
3.35 x 10 ka
-23
2r (1.055 a 10 3)=
-34
*- 1.,055x 10 J-S
21040
(1:38 -10*)(289) = 2.03 × 103
k= 1.38|x 1o /K
-23
KT
NA 6.022 10
S= Nk [ln () + = (19.196) l
2.64 x10%
2.03 x 109
N=nNA
= (2.3) (6.022 지6)
*1.39 x 10*
S: 539.2
mol-k
NK : (1.3f- 10")(1381 10)
= 19.196

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

GIVEN:

VIEW

INITIAL CALCULATIONS:

VIEW

SOLUTION:

VIEW

ANSWER:

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 4 steps

SEE SOLUTION Check out a sample Q&A here

Similar questions

1. The system below shows a box with two indistinguishable balls (filled in circles) and four possible positions, with only one ball allowed in each position. Assume that the system starts with a barrier between side 1 and side 2. Calculate the change in entropy if the barrier is removed and the balls are able to freely move to other positions. Give your answer in units of J/K. +
NEED ASAP
i need the answer quickly
Please help me
Answer in 90 minutes please.
Determine which of the following are true or false and explain your answer: a) During an isothermal process, the entropy of an ideal gas stays constant if there is a net change in either pressure or volume b) Entropy generation takes place when there are irreversibilities in a cycle. c) The lower the isentropic efficiency of a turbine, the more power it will generate with the same input stream and same output pressure.
Using the information provided (image), compare the change in entropy during the isothermal expansion from 1 L to 2 L of one mole of a rigid diatomic ideal gas and one mole of a rigid diatomic Van der Waals gas with b = 0.08 L/mol (ethanol). Are the changes in entropy the same for both or is one greater than the other?