Reneet for 1563 candidates: 23 June
Re- Results 30 June
Counseling start from 6 July
Re- Results 30 June
Counseling start from 6 July
Important Increasing Order 🌱
✔️ BOND ANGLE :-
(i) CH4 , C2H4 , C2H2
(ii) H2O, NH3 , CH4 , CO2
(iii) H2O, NH3 , CH4 , BH3
(iv) NO2—, NO2 , NO2+
(v) H2Se, H2S, H2O
(vi) AsH3 , PH3 , NH3
(vii) PF3 , PCl3 , PBr3 , PI3
(viii) NF3 , NCl3
(ix) NF3 , NH3 , NCl3
(x) OF2 , OH2 , Cl2O
✔️ MELTING POINT :-
(i) Cs, Rb, K, Na, Li
(ii) Mg, Ba, Sr, Ca, Be
(iii) CaI2 , CaBr2 , CaCl2 , CaF2
(iv) BeCl2 , MgCl2 , CaCl2 , SrCl2 , BaCl2
(v) NaI, NaBr, NaCl, NaF
(vi) CsCl, RbCl, KCl, NaCl
(vii) AlCl3 , MgCl2 , NaCl
✔️ BOILING POINT :-
(i) PH3 , AsH3 , NH3 , SbH3
(ii) H2S, H2Se, H2O
(iii) HCl, HBr, HI, HF
(iv) NH3 , HF, H2O
(v) He, Ne, Ar, Kr
(vi) H2O, D2O
(vii) H2 , Cl2 , Br2
✔️ DIPOLE MOMENTS :-
(i) CCl4 , CHCl3 , CH2Cl2 ,CH3Cl
(ii) NF3 , NH3 , H2O, HF
(iii) Cis-chloropropene, Trans-chloropropene
(iv) p, m, o-dichlorobenzene
(v) CH3I, CH3Br, CH3F, CH3Cl
(vi) NH3 , SO2 , H2O, HF
(vii) H2S, H2O
(viii) HI, HBr, HCl, HF
(ix) PH3 , ASH3 , SbH3 , NH3
(x) H2O, H2O2
✔️ BOND ANGLE :-
(i) CH4 , C2H4 , C2H2
(ii) H2O, NH3 , CH4 , CO2
(iii) H2O, NH3 , CH4 , BH3
(iv) NO2—, NO2 , NO2+
(v) H2Se, H2S, H2O
(vi) AsH3 , PH3 , NH3
(vii) PF3 , PCl3 , PBr3 , PI3
(viii) NF3 , NCl3
(ix) NF3 , NH3 , NCl3
(x) OF2 , OH2 , Cl2O
✔️ MELTING POINT :-
(i) Cs, Rb, K, Na, Li
(ii) Mg, Ba, Sr, Ca, Be
(iii) CaI2 , CaBr2 , CaCl2 , CaF2
(iv) BeCl2 , MgCl2 , CaCl2 , SrCl2 , BaCl2
(v) NaI, NaBr, NaCl, NaF
(vi) CsCl, RbCl, KCl, NaCl
(vii) AlCl3 , MgCl2 , NaCl
✔️ BOILING POINT :-
(i) PH3 , AsH3 , NH3 , SbH3
(ii) H2S, H2Se, H2O
(iii) HCl, HBr, HI, HF
(iv) NH3 , HF, H2O
(v) He, Ne, Ar, Kr
(vi) H2O, D2O
(vii) H2 , Cl2 , Br2
✔️ DIPOLE MOMENTS :-
(i) CCl4 , CHCl3 , CH2Cl2 ,CH3Cl
(ii) NF3 , NH3 , H2O, HF
(iii) Cis-chloropropene, Trans-chloropropene
(iv) p, m, o-dichlorobenzene
(v) CH3I, CH3Br, CH3F, CH3Cl
(vi) NH3 , SO2 , H2O, HF
(vii) H2S, H2O
(viii) HI, HBr, HCl, HF
(ix) PH3 , ASH3 , SbH3 , NH3
(x) H2O, H2O2
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𝗞𝗘𝗬 𝗡𝗢𝗧𝗘
❁ In some plants sepals of the flower 🌹 remain attached after fertilisation during embroygenesis. E.g., Tomato 🍅, Brinjal, Strawberry 🍓.
❁ The zygote develops into embryo after which the ovule becomes the seed and ovary becomes the fruit 🍏
❁ Inside the mature seed is the progenitor of the next generation, the embryo. 🙌
❁ The fruit develops a thick wall called pericarp that is protective in function.🔥
❁ After dispersal, seeds🌱 germinate under favourable conditions to produce new plants. 🌾
𝗞𝗘𝗬 𝗡𝗢𝗧𝗘
❁ In some plants sepals of the flower 🌹 remain attached after fertilisation during embroygenesis. E.g., Tomato 🍅, Brinjal, Strawberry 🍓.
❁ The zygote develops into embryo after which the ovule becomes the seed and ovary becomes the fruit 🍏
❁ Inside the mature seed is the progenitor of the next generation, the embryo. 🙌
❁ The fruit develops a thick wall called pericarp that is protective in function.🔥
❁ After dispersal, seeds🌱 germinate under favourable conditions to produce new plants. 🌾
🔰INORGANIC IN SHOTS🔰
✌️Increasings or Decreasing Order
✨01. Melting point=
Li > Na > K > Rb > Cs
✨02. Colour of the flame=
Li-Red, Na-Golden, K-Violet, Rb-Red, Cs-Blue, Ca-Brick red, Sr-Blood red, Ba-Apple green
✨03. Stability of hydrides =
LiH > NaH > KH > RbH> CsH
✨04. Basic nature of hydroxides=
LIOH < NaOH < KOH < RbOH < CsOH
✨05. Hydration energy=
Li> Na > K> Rb > Cs
✨06.) Reducing character=
Li > Cs > Rb > K > Na
✨07. Stability of +3 oxidation state=
B> Al > Ga > In > T1
✨08. Stability of +1 oxidation state= Ga < In < TI
✨09. Basic nature of the oxides and hydroxides=
B< Al< Ga < In < TI
✨10. Relative strength of Lewis acid= BF3 < BCl3 < BBr3 < BI3
✨11. Ionisation energy=
B> Al In SiO2 > Ge02 > SnO2 > PbO2
✨15. Reducing nature of hydrides=
CH4 < SiH4 < GeH4 < SnH4 < PbH4
✨16. Thermal stability of tetrahalides=
CCl4> SiCl4> GeCl4> SnCl4 > PbCl4
✨17. Oxidising character of M+4 species=
GeCl4 < SnCl4 < PbCl4
✨18. Ease of hydrolysis of tetrahalides=
SiCl4 < GeCl4 < SnCl4 < PbCI4
✨19. Acidic strength of trioxides=
N203 > P2O3 > As2O3
✨20. Acidic strength of pentoxides=
N2O2 > P2O2> As202 > Sb2O2 > Bi202
✨21) Acidic strength of oxides of nitrogen=
N2O < NO PH3 > AsH3 > SbH3 > BiH3
✨23. Stability of trihalides of nitrogen=
NF3 > NCl3 > NBr3
✨24.Lewis base strength=
NF3 PCI3 > AsCl3 > SbCl3 > BiCl3
✨26.Lewis acid strength of trihalides of P, As, and Sb=
PCl3 > ASCl3 > SbCl3
✨27. Lewis acid strength among phosphorus trihalides
PF3 > PCl3 > PBr3 > PI3
✨(28) Melting and boiling point of hydrides=
H2O > H2Te > H2Se >H2S
✨29. Volatility of hydrides=
H2O < H2Te < H2Se < H2S
✨30. Reducing nature of hydrides=
H2S < H2Se < H2Te
✨31. Covalent character of hydrides=
H2O < H2S < H2Se < H2Te
✨32. The acidic character of oxides (elements in the same oxidation state)=
SO2 > SeO2 > TeO2 > PoO2
SO3 > SeO3 > TeO3
✨33. Acidic character of oxide of a particular element (e.g. S)=
SO < SO2 < SO3
SO2 > TeO2 > SeO2 > PoO2
✨34. Bond energy of halogens=
Cl2 > Br2 > F2 > I2
✨35. Solubility of halogen in water =
F2 > Cl2 > Br2 > I2
✨36. Oxidising power=
F2 > Cl2 > Br2 > I2
✨37. Enthalpy of hydration of X ion=
F- > Cl- > Br- >I-
✨38. Reactivity of halogens:=
F> Cl> Br > I
✨39. Ionic character of M-X bond in halides
= M-F > M-Cl > MBr > M-I
✨40. Reducing character of X ion:=
I- > Br- > Cl- > F-
✨41. Acidic strength of halogen acids=
HI > HBr > HCI > HF
✨42 Reducing property of hydrogen halides
= HF < HCL < HBr < HI
✨43. Oxidising power of oxides of chlorine
= Cl2O > ClO2 > Cl206 > Cl2O7
✨44. Decreasing ionic size=
02- > F- > Na+ > Mg2+
✨45 Increasing acidic property=
Na2O3 < MgO < ZnO< P205
✨46 Increasing bond length=
N2 <02 < F2 < CL2
✨47 Increasing size=
Ca2+ < Cl- < S2-
✨48 Increasing acid strength=
HClO < HClO2 < HClO3 < HClO4
✌️Increasings or Decreasing Order
✨01. Melting point=
Li > Na > K > Rb > Cs
✨02. Colour of the flame=
Li-Red, Na-Golden, K-Violet, Rb-Red, Cs-Blue, Ca-Brick red, Sr-Blood red, Ba-Apple green
✨03. Stability of hydrides =
LiH > NaH > KH > RbH> CsH
✨04. Basic nature of hydroxides=
LIOH < NaOH < KOH < RbOH < CsOH
✨05. Hydration energy=
Li> Na > K> Rb > Cs
✨06.) Reducing character=
Li > Cs > Rb > K > Na
✨07. Stability of +3 oxidation state=
B> Al > Ga > In > T1
✨08. Stability of +1 oxidation state= Ga < In < TI
✨09. Basic nature of the oxides and hydroxides=
B< Al< Ga < In < TI
✨10. Relative strength of Lewis acid= BF3 < BCl3 < BBr3 < BI3
✨11. Ionisation energy=
B> Al In SiO2 > Ge02 > SnO2 > PbO2
✨15. Reducing nature of hydrides=
CH4 < SiH4 < GeH4 < SnH4 < PbH4
✨16. Thermal stability of tetrahalides=
CCl4> SiCl4> GeCl4> SnCl4 > PbCl4
✨17. Oxidising character of M+4 species=
GeCl4 < SnCl4 < PbCl4
✨18. Ease of hydrolysis of tetrahalides=
SiCl4 < GeCl4 < SnCl4 < PbCI4
✨19. Acidic strength of trioxides=
N203 > P2O3 > As2O3
✨20. Acidic strength of pentoxides=
N2O2 > P2O2> As202 > Sb2O2 > Bi202
✨21) Acidic strength of oxides of nitrogen=
N2O < NO PH3 > AsH3 > SbH3 > BiH3
✨23. Stability of trihalides of nitrogen=
NF3 > NCl3 > NBr3
✨24.Lewis base strength=
NF3 PCI3 > AsCl3 > SbCl3 > BiCl3
✨26.Lewis acid strength of trihalides of P, As, and Sb=
PCl3 > ASCl3 > SbCl3
✨27. Lewis acid strength among phosphorus trihalides
PF3 > PCl3 > PBr3 > PI3
✨(28) Melting and boiling point of hydrides=
H2O > H2Te > H2Se >H2S
✨29. Volatility of hydrides=
H2O < H2Te < H2Se < H2S
✨30. Reducing nature of hydrides=
H2S < H2Se < H2Te
✨31. Covalent character of hydrides=
H2O < H2S < H2Se < H2Te
✨32. The acidic character of oxides (elements in the same oxidation state)=
SO2 > SeO2 > TeO2 > PoO2
SO3 > SeO3 > TeO3
✨33. Acidic character of oxide of a particular element (e.g. S)=
SO < SO2 < SO3
SO2 > TeO2 > SeO2 > PoO2
✨34. Bond energy of halogens=
Cl2 > Br2 > F2 > I2
✨35. Solubility of halogen in water =
F2 > Cl2 > Br2 > I2
✨36. Oxidising power=
F2 > Cl2 > Br2 > I2
✨37. Enthalpy of hydration of X ion=
F- > Cl- > Br- >I-
✨38. Reactivity of halogens:=
F> Cl> Br > I
✨39. Ionic character of M-X bond in halides
= M-F > M-Cl > MBr > M-I
✨40. Reducing character of X ion:=
I- > Br- > Cl- > F-
✨41. Acidic strength of halogen acids=
HI > HBr > HCI > HF
✨42 Reducing property of hydrogen halides
= HF < HCL < HBr < HI
✨43. Oxidising power of oxides of chlorine
= Cl2O > ClO2 > Cl206 > Cl2O7
✨44. Decreasing ionic size=
02- > F- > Na+ > Mg2+
✨45 Increasing acidic property=
Na2O3 < MgO < ZnO< P205
✨46 Increasing bond length=
N2 <02 < F2 < CL2
✨47 Increasing size=
Ca2+ < Cl- < S2-
✨48 Increasing acid strength=
HClO < HClO2 < HClO3 < HClO4