What is Isobaric: Definition and 84 Discussions

Isobaric labeling is a mass spectrometry strategy used in quantitative proteomics. Peptides or proteins are labeled with various chemical groups that are (at least nominally) identical masses (isobaric), but vary in terms of distribution of heavy isotopes around their structure. These tags, commonly referred to as tandem mass tags, are designed so that the mass tag is cleaved at a specific linker region upon high-energy CID (HCD) during tandem mass spectrometry yielding reporter ions of different masses. The most common isobaric tags are amine-reactive tags. However, tags that react with cysteine residues and carbonyl groups have also been described. These amine-reactive groups go through N-hydroxysuccinimide (NHS) reactions, which are based around three types of functional groups. Isobaric labeling methods include tandem mass tags (TMT), isobaric tags for absolute and relative quantification (iTRAQ), mass differential tags for absolute and relative quantification, and dimethyl labeling. TMTs and iTRAQ methods are most common and developed of these methods. Tandem mass tags have a mass reporter region, a cleavable linker region, a mass normalization region, and a protein reactive group and have the same total mass.

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  1. S

    Adiabatic, isobaric & isothermal expansions

    Homework Statement An ideal gas of N particles is reversibly expanded from V1 to V2 = 4V1. The starting temperature T1 is known and E_1 = \frac{3}{2} N k_B T_1. As of yet E_2 is unknown. a) Express \Delta E = E_1 - E_2 in terms of the added heat Q and work done on the gas W. b) Calculate...
  2. T

    Thermodynamics - Internal Energy in Isochoric and Isobaric Processes

    Assuming that the gas in these processes is an ideal one, is the change in internal energy in an isochoric process (volume remaining constant) the same as the change in internal energy of isobaric process (pressure remaining constant)? Mathematically I can derive that they're equivalent, but...
  3. G

    Isobaric Compression: Homework Help for Ideal Gas Laws

    Howdy all, I have a final coming up, and I'm having a very difficult time grasping a few concepts about the ideal gas laws, specifically a problem with isobaric compression. Homework Statement Alright, the intro to the problem is: A quantity of ideal gas is slowly compressed to 1/3 of...
  4. C

    Thermodynamics: Isobaric process finding volume of steam.

    Homework Statement http://img140.imageshack.us/img140/2963/isobaricsteam.jpg P1 and P2 are 1 bar. V2 4.812 and V2 specific volume is 2.406 X1=0.6 Homework Equations v=vf+x(vf-vg) W=-P(v2-v1) Q=(u2+pv2)-(u1+pv1) The Attempt at a Solution Hi guys first timer here...
  5. P

    Isobaric evaporation, why the temperature must be constant?

    Homework Statement In case of an isobaric evaporation, why the temperature must be constant? Homework Equations I'm working on Mollier Diagram and my textbook says "because P is constant, so T is also constant", I coundn't understand it anyway The Attempt at a Solution
  6. F

    Isobaric Expansion: Definition & Explanation

    Homework Statement Describe what is meant by the term "Isobaric expansion". Homework Equations The Attempt at a Solution I've been all through my textbook and the web trying to find a "proper" definition.
  7. A

    Isobaric System (work done by, or on?)

    Homework Statement There is a graph PxV. Pressure is obviously constant so it is a strait line and volume is from point A (1) to point B (3.5). You do not need to solve anything but it asks if work is being done on the system or by the system. Homework Equations U=Q-W The Attempt...
  8. M

    Thermodynamics problem- isobaric process

    Homework Statement One mole of an ideal monatomic gas is taken through the cycle ABCA shown schematically in the diagram. State A has volume 0.0208 m3 and pressure 1.22 × 10 5 Pa, and state C has volume 0.0524 m3 Process CA lies along the 305 ±1 K isotherm. The molar heat capacities for...
  9. M

    Isobaric Process finding G using (deltaG-deltaGo)

    Can anyone help me with understanding what is going on at page 11 of these notes? http://www.chem.utoronto.ca/coursenotes/CHM223/Section%205B%20Fall%202010.pdf Do you get why there is 2 delta Gs? I am really confused with what he was trying to do there? ΔG(37oC) – ΔG(25oC) ≈ – (T – 298)...
  10. E

    Thermodynamics - work in adiabatic, isothermal, isobaric

    Homework Statement 21. A quantity of an ideal gas is compressed to half its initial volume. The process may be adiabatic, isothermal, or isobaric. Rank those three processes in order of the work required of an external agent, least to greatest. A. adiabatic, isothermal, isobaric B...
  11. M

    Isobaric heating to find volume and temperature

    Homework Statement Initially, 2 kg of water is at 250 Celsius and it exists as a saturated liquid. It is now isobarically heated until all of it is converted to saturated vapor. Find final temperature and volume. Homework Equations Thermodynamic tables and the use of interpolation...
  12. T

    Isobaric Process: Fill in ΔP for Homework Equation

    Homework Statement Pf 429 Q -754 ΔU 819 The table above shows the measurements taken while an ideal gas underwent an ISOBARIC process. Fill in the appropriate values for the table below. ΔP=? Homework Equations Q= ΔU+W=ΔU=PΔV The Attempt at a Solution I don't know how to go...
  13. A

    Entropy change for isobaric heating

    Hi guys, is this right? Homework Statement A mole of nitrogen is heated at constant external pressure of 1 atm from 25° C to 100° C. The heat capacity of nitrogen is 29.1 J/mol·K. Calculate ΔSsurr 2. The attempt at a solution delta_S=Q/T = -1*29.1*75/373=-5.85 J/K (heat...
  14. W

    Isobaric Expansion for Ideal Gas

    Given: working fluid is an Ideal gas P=30 psi V=2ft3 T=20degreeC Q. what is initial state of the gas when? Isobaric expansion to 3ft3
  15. Y

    Solving Isobaric Process Heat Addition Problem

    NVM I solved it. Thanks for reading anyway :) Homework Statement 610 J of heat is added to 3.4 mol of a monatomic ideal gas at constant pressure. Find the change of temperature of the gas.Homework Equations At isobaric conditions, w = p\DeltaV = nR\DeltaT w = nR\DeltaTThe Attempt at a...
  16. C

    Process such as isobaric, isochoric, quasistatic, adiabatic

    Just say an ideal gas goes through process such as isobaric, isochoric, quasistatic, adiabatic etc, is there any special cases where entropy is conserved, or am i thinking enthalpy. Also how is enthalpy found in adiabatic processes?
  17. D

    Isobaric, Isochoric, Isothermal, and Adiabatic Processes

    http://session.masteringphysics.com/problemAsset/1013990/12/1013990E.jpg Which of the following statements are true about the first half of this process, just going from state A to state F? Both T and U increase. W provides energy input. Q provides energy input. Q is larger (in...
  18. N

    Ideal Gas Law and Isobaric Processes

    Hi, So let's take the standard example of a gas in a container with a piston at the top. Charles' Law states that at constant pressure, an increase in temperature (kinetic energy of gas molecules) will increase the volume. This makes sense both conceptually and mathematically (per PV = nRT)...
  19. H

    What is the work done by an ideal gas in an isobaric process?

    [SOLVED] Isobaric process Hi, need some help with this. I got to moles of an ideal gas that are heated at constant pressure from T=27 C to T=107C. How do I calculate the work done by the gas? I know that for a isobaric process the work is given by W = p(V2-V1) Thanks
  20. T

    Isochoric and Isobaric (Ch.15 problem #26 Wiley+)

    Homework Statement Chapter 15, Problem 26 The drawing refers to 5.30 mol of a monatomic ideal gas and shows a process that has four steps, two isobaric (A to B, C to D) and two isochoric (B to C, D to A). (a) What is the work done from A to B? (b) What is the heat added or removed from B to...
  21. P

    Isotherm, Isobaric, and Isochoric Problem

    Homework Statement One mole of a monatomic ideal gas has an initial pressure, volume, and temperature of Po, Vo, and 442 K, respectively. It undergoes an isothermal expansion that triples the volume of the gas. Then the gas undergoes an isobaric compression back to its original volume...
  22. A

    Solving Isobaric Expansion Homework Problem - 871.395 J

    Homework Statement 5.00 g of nitrogen gas at 22.0 deg C and an initial pressure of 2.00 atm undergo an isobaric expansion until the volume has tripled. A. How much heat energy is transferred to the gas to cause this expansion? Homework Equations Equation of Isobaric thermodynamic: W...
  23. I

    Work done in an Isobaric expansion

    Homework Statement 4.20g of nitrogen gas at 22.0 C and an initial pressure of 2.30 atm undergo an isobaric expansion until the volume has tripled. A.)How much heat energy is transferred to the gas to cause this expansion? b.)The gas pressure is then decreased at constant volume until...
  24. D

    Understanding the Isobaric Cooling of Air and its Effects on Dew Point

    Hi! My Physics introductory book states the following: "A dew point is a state defined by the temperature to which the air has to be cooled isobarically (with constant absolute humidity) for the vapour to become saturated." Humidity is defined as m/V, where m is weight of the vapour, V is...
  25. Amith2006

    Isobaric Process: del(H) = mC(v)dT + (P.dV)/J

    Homework Statement Consider 1 gram of an ideal gas undergoing isobaric process. Suppose del(H) be the amount of heat given to it. Then, del(H) = dU + del(W) del(H) = 1 x C(v)dT + (P.dV)/J...
  26. M

    Thermodynamics isobaric question

    A sample of ideal gas at constant pressure is heated from -10 degrees C to 100 degrees C. The gas does 40.0J of work during this process. How many moles of gas are present? What is the pressure of the gas at 100 degrees C? So far I've calculated the moles of gas present T1 = -10 degrees C T2...
  27. T

    Going Crazy: Solving an Isobaric Process Problem

    This problem is going to make me go crazy... 4. In the figure below, an ideal gas is slowly compressed at a constant pressure of 2.0 atm from 10.0 L to 2.0 L. This process is represented as the path B to D. In this process, some heat flows out and the temperature drops. If the heat lost from...
  28. J

    Isobaric Expansion: Finding Internal Energy & Heat w/ 2.0 Moles Ideal Gas

    I have a Pressure vs Volume Graph and A -> B. It's just an isobaric expansion, the work done by the gas is -3600 J. The gas is monatomic ideal (2.0moles). If I used it correctly, PV=nRT, I found the change in temperature to be 216.6K. My question is: How do I find the change in internal...
  29. J

    Statistical Mechanics to Thermo for Isothermal Isobaric Ensemble

    I am trying to make the connection from statistical mechanics to thermodynamics for the isothermal isobaric ensemble. Partition function = (sum of)exp(-BEj-gamma*Vj). I have followed T.L. Hill [Statistical Mechanics, p. 67] but can not understand how he justifies dE=(sum of)EdP, rather than...
  30. A

    Calculate Work Done on 2.8kg Aluminum at Atmospheric Pressure

    Given: the thermal coefficient of expansion = 2.4 x 10^-5 (degrees C ^-1) A 2.8 kg block of aluminum is heated at atmospheric pressure so that its temperature increases from 20C to 43C. Find the work done on the aluminum. Answer in units of J. I originally wanted to do W=P∆V. I could...
  31. E

    Change in internal energy for an isobaric process?

    Question: When a quantity of monatomic ideal gas expands at a constant pressure of 4.00 \times 10^{4} {\rm Pa}, the volume of the gas increases from 2.00 \times 10^{ - 3} {\rm m}^{3} to 8.00 \times 10^{ - 3} {\rm m}^{3}. A. What is the change in the internal energy of the gas? It's isobaric...
  32. B

    Find the volume and temperature after the isobaric expansion

    Hello Physics Forums users, I am stuck on a question. Can someone please help me out? Q. In a non-Carnot engine, a volume of 100 cm^3 of air, initially at 0 degrees celcius and 1 atm pressure, is compressed isothermally until its volume is 10 cm^3. The gas is then expanded at constant...
  33. N

    Calculating Internal Energy Change in Isobaric Expansion

    question: An ideal gas initially at 230 K undergoes an isobaric expansion at 3.65 kPa. If the volume increases from 1.7 m^3 to 6.8 m^3 and 25.1 kJ is transferred to the gas by heat, what is the change in its internal energy? i know that isobaric expansion means that the pressure is...
  34. M

    Gas isobaric conditions problem

    I have 3 probs I'm working on, not really sure how to go about these... 1) A gas, while expanding under isobaric conditions, does 611 J of work. The pressure of the gas is 1.70 x 10^5 Pa, and its initial volume is 1.30 x 10^-3 m^3. What is the final volume of the gas? I'm assuming I would...
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