Class 12 Chemistry-100 – Nishad Formula

Class 12 Chemistry – 100 Formulas

Class 12 Chemistry – 100 Important Formulas (Hindi + English)

1. n = Mass / Molar Mass | मोल = द्रव्यमान / मोलर द्रव्यमान
2. M = Mass / n | मोलर द्रव्यमान = द्रव्यमान / मोल
3. n = Volume / 22.4 L | मोल = आयतन / 22.4 L
4. d = Mass / Volume | घनत्व = द्रव्यमान / आयतन
5. Molarity (M) = Moles / Volume (L) | मोलरता = मोल / आयतन
6. Molality (m) = Moles / Mass (kg) | मोललता = मोल / द्रव्यमान
7. Normality (N) = Eq / Volume | नॉर्मलता = समतुल्य / आयतन
8. Equivalent Weight = Molar Mass / n-factor | समतुल्य भार = मोलर द्रव्यमान / n
9. Mole Fraction = Moles / Total Moles | मोल अंश = मोल / कुल मोल
10. % Purity = (Pure / Impure) ×100 | शुद्धता %
11. P₁V₁ = P₂V₂ | Boyle’s Law
12. V₁/T₁ = V₂/T₂ | Charles Law
13. P₁/T₁ = P₂/T₂ | Gay-Lussac Law
14. PV = nRT | Ideal Gas Equation
15. P = P₁+P₂ | Dalton’s Law
16. v(rms) = √3RT/M | RMS Velocity
17. v(avg) = √8RT/πM | Average Velocity
18. v(mp) = √2RT/M | Most Probable Velocity
19. KE = 3/2 RT | Kinetic Energy
20. Z = PV/nRT | Compressibility Factor
21. ΔU = q + w | Internal Energy
22. w = −PΔV | Work Done
23. q = mcΔT | Heat
24. ΔH = ΔU + PΔV | Enthalpy Change
25. ΔG = ΔH − TΔS | Gibbs Free Energy
26. ΔG = −nFE | Gibbs Energy in Electrochemistry
27. ΔS = q/T | Entropy
28. ΔH = H₂ − H₁ | Enthalpy
29. Cp − Cv = R | Relation
30. Efficiency = Work Output / Input
31. Kc = Products / Reactants | Equilibrium Constant
32. Kp = Kc (RT)^Δn | Gas Equilibrium
33. Kw = [H⁺][OH⁻] | Ionic Product of Water
34. pH = −log[H⁺] | pH
35. pOH = −log[OH⁻] | pOH
36. pH+pOH=14
37. Ka=[H⁺][A⁻]/[HA] | Acid Dissociation
38. Kb=[BH⁺][OH⁻]/[B] | Base Dissociation
39. pH=pKa+log(Salt/Acid) | Henderson Equation
40. α = Dissociated/Initial | Degree of Dissociation
41. π=CRT | Osmotic Pressure
42. ΔTb=Kb m | Elevation in Boiling Point
43. ΔTf=Kf m | Depression in Freezing Point
44. ΔP/P°=Xsolute | Relative Lowering of Vapour Pressure
45. M₁V₁=M₂V₂ | Dilution Formula
46. w/v% = Mass/Volume×100 | Weight/Volume %
47. w/w% = Mass/Mass×100 | Weight/Weight %
48. v/v% = Volume/Volume×100 | Volume/Volume %
49. ppm = Parts/10⁶ | Parts per Million
50. X = Moles/Total | Mole Fraction
51. E = E° − 0.0591/n logQ | Nernst Equation
52. Ecell=Ec−Ea | Cell Potential
53. ΔG=−nFE | Gibbs Energy
54. G=1/R | Conductance
55. κ=Gl/A | Specific Conductance
56. Λm=κ×1000/C | Molar Conductivity
57. Q=It | Electric Charge
58. m=ZIt | Faraday Law
59. F=96500C | Faraday Constant
60. t=Q/I | Time in Electrolysis
61. Rate=ΔC/Δt | Rate of Reaction
62. k=Rate/[A]ⁿ | Rate Constant
63. t½=0.693/k | Half-Life (1st Order)
64. k=Ae⁻ᴱᵃ/ᴿᵀ | Arrhenius Equation
65. Ea=2.303RTlog(k₂/k₁) | Activation Energy
66. Rate=k[A][B] | Rate Law
67. ln k = lnA − Ea/RT | Arrhenius Form
68. Order = sum of powers | Order of Reaction
69. Molecularity = no. molecules | Molecularity
70. t½=1/k[A] | Half-Life (2nd Order)
71. Adsorption ∝ Pressure | Surface Chemistry
72. x/m=kP¹/ⁿ | Freundlich Adsorption
73. Catalysis Rate ↑ | Catalysis
74. Colloid Size=1–1000nm | Colloid
75. Tyndall Effect
76. Brownian Motion
77. Emulsion Type
78. Peptization
79. Coagulation
80. Gold Number
81. d=Z×M/a³Na | Density of Solid
82. Packing Eff.=Volume of Atoms / Unit Cell ×100 | Packing Efficiency
83. a=2r (SC)
84. a=4r/√3 (BCC)
85. a=2√2r (FCC)
86. Void=1−Packing | Void Fraction
87. n=ρNa/M | Number of Moles in Unit Cell
88. Z=No. atoms | Number of Atoms per Unit Cell
89. Edge Length=a
90. CN=Coordination No.
91. Alkane: CnH2n+2 | एल्केन
92. Alkene: CnH2n | एल्कीन
93. Alkyne: CnH2n−2 | अल्काइन
94. Alcohol: R−OH | अल्कोहल
95. Aldehyde: R−CHO | एल्डिहाइड
96. Ketone: R−CO−R | कीटोन
97. Acid: R−COOH | कार्बोक्सिलिक एसिड
98. Ether: R−O−R | ईथर
99. Ester: R−COOR | एस्टर
100. Amine: R−NH₂ | अमीन