First Law
Comprehensive notes, formulas, and practice questions for First Law.
First Law
First Law of Thermodynamics
What you'll learn
- The First Law: ΔU = Q − W — conservation of energy for thermodynamic systems.
- Sign conventions for heat Q and work W in physics (system-centric).
- Isothermal, isobaric, isochoric, and adiabatic processes for ideal gases.
- To calculate work as area under P–V diagram and apply to engines and compressors.
Key concepts
Level 1 — Energy balance
Verbal: Internal energy U changes when heat enters/leaves the system and when the system does work on surroundings (or vice versa). Energy is conserved; it transforms between heat, work, and internal energy.
Symbolic: ΔU = Q − W (common NCERT convention: W = work done by system). If heat added to system, Q > 0. If system expands against external pressure, W > 0.
For ideal gas: U depends only on T (for fixed n). Isothermal ⇒ ΔU = 0 ⇒ Q = W.
Level 2 — Processes and formulas (ideal gas)
| Process | Condition | Work W | ΔU |
|---|---|---|---|
| Isochoric | ΔV = 0 | 0 | Q = ΔU = nC_V ΔT |
| Isobaric | ΔP = 0 | PΔV | nC_P ΔT |
| Isothermal | ΔT = 0 | nRT ln(V₂/V₁) | 0 |
| Adiabatic | Q = 0 | (P₁V₁ − P₂V₂)/(γ−1) | −W |
Mayer relation: C_P − C_V = R (1 mole ideal gas). γ = C_P/C_V.
P–V diagram: Work = ∫P dV = area under curve (signed).
Cyclic process: ΔU = 0 ⇒ Q_net = W_net (area enclosed).
NCERT spotlight — Cyclic processes and engines
In a cyclic process Delta U = 0, so Q_net = W_net equals area enclosed on P-V diagram. Heat engine absorbs Q_h, rejects Q_c, work W = Q_h - Q_c. Efficiency eta = W/Q_h = 1 - Q_c/Q_h.
Adiabatic relations (ideal gas): PV raised to gamma equals constant, TV raised to (gamma-1) equals constant during reversible adiabatic process — used in sound propagation and compression strokes.
Calorimetry: Q = mc Delta T for sensible heating; Q = mL for phase change at constant temperature.
Worked example
One mole of ideal gas expands isothermally at 300 K from 2 L to 8 L. Find W and Q (R = 8.314 J/mol·K).
Step 1 — Isothermal ideal gas: ΔU = 0 → Q = W.
Step 2 — W = nRT ln(V₂/V₁) = 1 × 8.314 × 300 × ln(8/2).
Step 3 — ln 4 = 1.386 → W = 8.314 × 300 × 1.386 ≈ 3457 J.
Step 4 — Q = +3457 J (heat absorbed from reservoir to do expansion work).
Step 5 — Temperature constant: internal energy of ideal gas unchanged ✓
Applications — engines and compressors
Petrol engine approximate Otto cycle: intake, compression, ignition, exhaust — net work per cycle equals area on P-V loop. Refrigerator removes heat Q_c from cold space using work W; COP_refrigerator = Q_c/W. First law tracks where energy goes: not created, only transformed among heat, work, and internal energy.
Common mistakes
| Mistake | Why it happens | Fix |
|---|---|---|
| ΔU = Q + W with wrong signs | Chemistry vs physics convention | Stick to NCERT: ΔU = Q − W (W by system) |
| Work = PΔV in non-isobaric process | Overgeneralising | Use ∫P dV or appropriate formula |
| Heat equals temperature change always | Q goes to U and W | Q = ΔU + W |
| Adiabatic means ΔT = 0 | No heat ≠ no T change | W comes from internal energy |
Deep dive — cyclic processes and heat capacities
Cyclic process ΔU = 0 ⇒ Q_net = W_net = area enclosed clockwise on P-V diagram work positive by system if clockwise convention standard thermodynamics. Two moles ideal gas heated isochorically: Q = n C_V ΔT = 2 × (3/2 R) ΔT for monatomic — C_V = (3/2)R monatomic, (5/2)R diatomic at moderate T. ** Mayer relation** C_P − C_V = R derives from enthalpy H = U + PV for ideal gas. Polytropic process PV^n = constant — generalises isobaric isothermal adiabatic (n=gamma). Free expansion into vacuum Q=0 W=0 ΔU=0 ideal gas but irreversible entropy increases. Calorimeter mixing hot cold water: m1 c (T_f − T1) + m2 c (T_f − T2) = 0 find T_f — first law calorimetry special case no work. Adiabatic sound speed related gamma — physics acoustics link. Practise P-V diagram sketching for each process direction — examiners test area sign conventions frequently in CBSE 3-mark questions.
Review and practice drill
Review checklist: (1) Delta U = Q - W sign convention NCERT. (2) Isothermal ideal gas Delta U = 0. (3) Work = area P-V diagram. (4) Adiabatic Q = 0 so Delta U = -W. Practice: Gas absorbs 500 J, does 200 J work — Delta U = 300 J.
Quick check
- A gas absorbs 500 J heat and does 200 J work. Find ΔU.
- Why is work zero in isochoric heating?
- Sketch isobaric expansion on P–V diagram and identify work area.
Open the Practice tab for graded questions on First Law.
Interactive Exploration Suggestions (Drishti Live Worlds)
- Use the platform-native live simulation or PhET-style tool for this topic (number line, Venn, physics playground, molecule builder, sensor dashboard, etc.).
- Mirror / body / home activity: physically do the concept (count objects, measure, role-play) and photograph or describe for portfolio.
- Voice or text reflection with AI Mentor: explain the concept to a younger student or family member.
AI Mentor Prompts (Socratic, Board-Adaptive)
- "Explain this concept to a Class 6 student using one real example from an Indian home, school, market, or festival."
- "What is one common mistake students make here, and how would you catch yourself making it?"
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Robotics, STEM & Future Skills Bridges
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- Coding extension where relevant (simple script, simulation, or data logging).
NEP 2020 & Full Education OS Alignment
This material emphasises experiential "learning by doing", competency (apply/create/analyse), vocational exposure, critical thinking, and multidisciplinary connections. Designed to feed live worlds, AI Mentor (with memory), gamification, robotics, parent analytics, and future skills — not just exam prep.
Portfolio Evidence Idea: Your photo/table/reflection/project + one sentence on "How this helps me in real life or a possible future path."
Open the Practice tab for aligned questions (easy/medium/hard + case-based) with full AI scaffolding.
See curriculum for cross-links and the full future-skills/robotics chapters.
Key Takeaways (TL;DR)
- What you'll learn
- Key concepts
- Worked example
- Common mistakes
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