5

Each curve represents different gas at the same temperature: If they all have the same partial pressure of0.25 atm; which one will have thc greatest density?0.30]0....

Question

Each curve represents different gas at the same temperature: If they all have the same partial pressure of0.25 atm; which one will have thc greatest density?0.30]0.250.1511 0.101500 1000 1500 z000 2500 J00o J500 4000 Molecular speod (mia)

Each curve represents different gas at the same temperature: If they all have the same partial pressure of0.25 atm; which one will have thc greatest density? 0.30] 0.25 0.151 1 0.101 500 1000 1500 z000 2500 J00o J500 4000 Molecular speod (mia)



Answers

Which gas sample illustrated here has the greatest pressure?Assume that all the samples are at the same temperature.
Explain.

This question asked. Which gas sample has the greatest pressure, assuming that they're all the same temperature. So if we take a look at the ideal gas law, P V equals and R T P is pressure and N is the number Mel's. These are the two variables that I want to focus on here, as we can see there directly proportional. So, um or the higher the number of moles we have, the higher pressure is going to be so we're looking for the greatest pressure. We want the gas sample with the greatest number of moles, and that is going to be C. So because C has the, um, most mais of gas, it's going to have the highest pressure. Similarly, A, which has the least bowls, would have the lowest pressure of the three samples.

Alright if you're looking for the sample that has the greatest pressure first start out by counting how many particles are in each. So we've got five and a. 10 N. B. And eight N. C. Then if you look at the size they're slightly different, you have the smallest particles in B. And then you have the largest in C. And then the ones that are in A. Are somewhere in the middle. Now the smaller gas particles are going to move the fastest and they should be colliding with the surface of their container the most often. And then the ones that are the largest should theoretically be moving slower and then they'd be colliding with the surface of the container less often. So um since pressure is force divided by area or pressure as a result of gas particles colliding with the service of their container. The answer would be be because those smaller particles that are traveling faster are going to collide with the side of the container the most often

Based on idea guys, the potion TV close to an arty. So when temperature and volume is constant, as which is a condition in ABC. So pressure is proportional to the amount off the amount off molecules in most so we can wait. Can't come home any home, any gas molecules inside off those containers. So we know B has the greatest of pressure.

Remember. And there a guess. Well, then, do behave like in idea, I guess. Idea. I guess it high and high, Dumb Bridger and log Bresch here. Like if it waas If it waas in ideal guests idea, I guess then it do it. Follow the whore is ender or resented line No is really guesses, Dave yet from are really Yes. They've yet from ideal behaviour The one that is closer to dead. It's closer to the presenter lying It wasn't a nine the music But I do want going zero must be must be eight Ah year. Hi. You're dumb Major by your temperature Never recovered The green good curve defied idiot From the ideal behaviour Ideal behaviour It must be eight Must be and lower than Bridger. No, Kim Crazy. So great girls read girl, He's it hired and brazier


Similar Solved Questions

1 answers
2 Find a second solution Yz(x) that isn't a constant multiple of the solutionxly" ~ 3xy" + Sy = 0, Y1= x2cos(lnx)
2 Find a second solution Yz(x) that isn't a constant multiple of the solution xly" ~ 3xy" + Sy = 0, Y1= x2cos(lnx)...
5 answers
JujeonlaHErmLRoltAL Ye Tecele25.0-mL sample of 100 propanoic acid (HCzHsOz, K = 1.3 * 10-5) is titrated with 100 NaOH solution. Calculate the pH after the addition of the following amounts. 0.0 mL(b) 4.0 mL(c) 8.0 mL(d) 12.5 mL(e) 20.0 mL(f) 24.0 mL(g) 24,5 mL(h) 24.9 mL(I) 25.0 mL() 25.(k) 26.0 mL(I) 28.0 mL(m) 30.0 mL
Jujeonla HErm LRolt AL Ye Tecele 25.0-mL sample of 100 propanoic acid (HCzHsOz, K = 1.3 * 10-5) is titrated with 100 NaOH solution. Calculate the pH after the addition of the following amounts. 0.0 mL (b) 4.0 mL (c) 8.0 mL (d) 12.5 mL (e) 20.0 mL (f) 24.0 mL (g) 24,5 mL (h) 24.9 mL (I) 25.0 mL () 25...
5 answers
Problem 5 Use the Taylor/McLaurin series to determine the following limit sin(x) cos(x) + 1 lim X-0 ex S 1 2x + x2 + 1 _ X and explain why using series expansion is useful for these applications.
Problem 5 Use the Taylor/McLaurin series to determine the following limit sin(x) cos(x) + 1 lim X-0 ex S 1 2x + x2 + 1 _ X and explain why using series expansion is useful for these applications....
5 answers
Find the slope of the tangent line of the curve x% +y = c% where cis a constant Also calculate the equation of tangent line at point (1,D)to the curve
Find the slope of the tangent line of the curve x% +y = c% where cis a constant Also calculate the equation of tangent line at point (1,D)to the curve...
4 answers
Determlne the moment of Inertla about thexaxs2m8 m1 m1m
Determlne the moment of Inertla about thexaxs 2m 8 m 1 m 1m...
4 answers
A chemist has three different acid solutions. The first acid solution contains 20 % acid, the second contains 40 % and the third contains 85 % They want to use all three solutions to obtain a mixture of 114 liters containing 45 % acid, using 2 times as much of the 85 % solution as the 40 % solution. How many liters of each solution should be used?The chemist should useliters of 20 % solution,liters of 40 % solution, andliters of 85 % solution.
A chemist has three different acid solutions. The first acid solution contains 20 % acid, the second contains 40 % and the third contains 85 % They want to use all three solutions to obtain a mixture of 114 liters containing 45 % acid, using 2 times as much of the 85 % solution as the 40 % solution....
1 answers
As used in line $44,$ "weight" most nearly means \begin{equation} \begin{array}{l}{\text { A) bulk. }} \\ {\text { B) burden. }} \\ {\text { C) force. }} \\ {\text { D) clout. }}\end{array} \end{equation}
As used in line $44,$ "weight" most nearly means \begin{equation} \begin{array}{l}{\text { A) bulk. }} \\ {\text { B) burden. }} \\ {\text { C) force. }} \\ {\text { D) clout. }}\end{array} \end{equation}...
1 answers
Consider the functionflt) = 8cosft) - 6sin(2t)5cos(At) + 2sin(At) cos(6t _ 7/2)_(a) Find the (harmonic) magnitude and (harmonic) phase of its Fourier series components (b) Sketch its magnitude and phase spectra Hint: no Fourier inlegrals are necessary to solve this problem:
Consider the function flt) = 8cosft) - 6sin(2t) 5cos(At) + 2sin(At) cos(6t _ 7/2)_ (a) Find the (harmonic) magnitude and (harmonic) phase of its Fourier series components (b) Sketch its magnitude and phase spectra Hint: no Fourier inlegrals are necessary to solve this problem:...
5 answers
Two particles, A and B, are in uniform circular motion about acommon center. The acceleration of particle A is 8.5 times that ofparticle B. The period of particle B is 2.0 times the period ofparticle A. The ratio of the radius of the motion of particle A tothat of particle B is closest to
Two particles, A and B, are in uniform circular motion about a common center. The acceleration of particle A is 8.5 times that of particle B. The period of particle B is 2.0 times the period of particle A. The ratio of the radius of the motion of particle A to that of particle B is closest to...
5 answers
Use the given conditrungcos(u) 5/13,2 U < 12Determine the quadmnt in vahich 4l> liecs QuadrantQuadrantQuadrant HIQuadrant IV(6) Find tha exact Ualueo sin(u/?) cos(u/2) and tan(u/2) using the halfs anqlo formulas;sin(0/2)Co3(u/2)Can(0/?)
Use the given conditrung cos(u) 5/13, 2 U < 12 Determine the quadmnt in vahich 4l> liecs Quadrant Quadrant Quadrant HI Quadrant IV (6) Find tha exact Ualueo sin(u/?) cos(u/2) and tan(u/2) using the halfs anqlo formulas; sin(0/2) Co3(u/2) Can(0/?)...
5 answers
Solve the following initial value problems:(a)y′ +(1/t)y=3cos(2t), y(π)=0,t>0.′2(b)ty +2y=t −t+1, y(1)=1/2,t>0.
Solve the following initial value problems: (a)y′ +(1/t)y=3cos(2t), y(π)=0,t>0. ′2 (b)ty +2y=t −t+1, y(1)=1/2,t>0....
2 answers
Please provide all details. Assume I don't know anything. Thisquestion is really confusing even after the explanation of myteacher, so please provide a lot of details thanks you For 1-6, assume X a set with n elements:1) How many relations exist on X?2) Among all possible relations, how many of them arereflexives?3) Symmetric?4) Anti-symmetric?5) How many of them are functions?6) Bi-jective functions?
Please provide all details. Assume I don't know anything. This question is really confusing even after the explanation of my teacher, so please provide a lot of details thanks you For 1-6, assume X a set with n elements: 1) How many relations exist on X? 2) Among all possible relations, how ma...
5 answers
120144sot how pyridinc; CSlI;N; xts 1s a Bnnstcd-Lowry base in walcr Compkte thc cquationcouluon:SPECIAL
120144 sot how pyridinc; CSlI;N; xts 1s a Bnnstcd-Lowry base in walcr Compkte thc cquation couluon: SPECIAL...
5 answers
Al,Cls [AIBrCla] - (OC)JCo= Co(CO)a CHzClz Co nt, 30 min (COlaOMeMeOH0, 5 min(OC)_CoCo(CO)sCo (CO)a
Al,Cls [AIBrCla] - (OC)JCo= Co(CO)a CHzClz Co nt, 30 min (COla OMe MeOH 0, 5 min (OC)_Co Co(CO)s Co (CO)a...
4 answers
Elec. Gas Oil Solar 60 .05 .10 0 .15 .85 .10 .05 .10 .02 75 .05 .15 .08 .05 .90Electricity Natural gas Fuel oilSolar energy
Elec. Gas Oil Solar 60 .05 .10 0 .15 .85 .10 .05 .10 .02 75 .05 .15 .08 .05 .90 Electricity Natural gas Fuel oil Solar energy...
5 answers
Based on the cladogram below; gars are most closely related to which other fish?(HomnShaRK? AND RavsCOELACANTHSLungfishTETrapODsBichirsPaDolefIshStuaeonGarsBowinsTeleostsSelect one:Teleostsb. Sturgeon BichirsLungfish Sharks and rays
Based on the cladogram below; gars are most closely related to which other fish? (Homn ShaRK? AND Ravs COELACANTHS Lungfish TETrapODs Bichirs PaDolefIsh Stuaeon Gars Bowins Teleosts Select one: Teleosts b. Sturgeon Bichirs Lungfish Sharks and rays...
5 answers
{acm nieric #ad Jnd nitrogen monox dc, [ke this: Ajogen dloxide &nd weter Tcad JNO_(9) + A0() - 2 HNO,(*) + NO(a) rtacion ** Conliining Tlc( Fcmperte chemls: fincs that & 40 Ccntai cqullefium has the following composition:erd nitacgen monox de nitrcien diazidc maren, natric aaidconioounoananntH,o246.9HNO21 4 8Calculztc the valc cfine ~qumcnLTI Confnt(or L $ rciction Pound Ol -ntnEJaniacjn; cSiS
{acm nieric #ad Jnd nitrogen monox dc, [ke this: Ajogen dloxide &nd weter Tcad JNO_(9) + A0() - 2 HNO,(*) + NO(a) rtacion ** Conliining Tlc( Fcmperte chemls: fincs that & 40 Ccntai cqullefium has the following composition: erd nitacgen monox de nitrcien diazidc maren, natric aaid conioouno a...
5 answers
The standard enthalpy change for the following reaction is -340 kJ at 298 K Cu(s) + O2(g) 52 CuzO(s)What is the standard heat of formation of CuzO(s)?kJlmol
The standard enthalpy change for the following reaction is -340 kJ at 298 K Cu(s) + O2(g) 52 CuzO(s) What is the standard heat of formation of CuzO(s)? kJlmol...
5 answers
Exercise 73 Differentiate each of the following W.t 1. 2* 9. In (34 ) 2. (* 10. 4 2 33. 54' + 31. In ( } 7 12. +In Y 13. S1 + 44. 4'-61"' +55. ( - 21(31 + /)6. 4+414. (2r + [)34 2)7. *(+)15. In8. e*+ sin .16. J =2sin. + 3 cos 17. Given J = (2 + 3 ). find d when . = 2 di 18. If /=u+ 3)21 1) find d at the point (2, 15). dx
Exercise 73 Differentiate each of the following W.t 1. 2* 9. In (34 ) 2. (* 10. 4 2 3 3. 54' + 3 1. In ( } 7 12. +In Y 13. S1 + 4 4. 4'-61"' +5 5. ( - 21(31 + /) 6. 4+4 14. (2r + [)34 2) 7. *(+) 15. In 8. e*+ sin . 16. J =2sin. + 3 cos 17. Given J = (2 + 3 ). find d when . = 2 di...

-- 0.021007--