Home
Class 12
CHEMISTRY
{:("Column-I","Column-II"),((A)"Molecula...

`{:("Column-I","Column-II"),((A)"Molecular solid", "p good conductor"),((B)"Graphite", "q delocalised electrons"),((C )"Carbon dioxide", "r van der Waals' interactions"),((D)"Metallic lusture", "s zero dipole moment"):}`

Text Solution

Verified by Experts

The correct Answer is:
`(##DIN_OBJ_CHM_V01_C1_4_E01_580_A01##)`
Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • CHEMICAL BONDING AND MOLECULAR STRUCTURE

    DINESH PUBLICATION|Exercise Integer|4 Videos

  • CHEMICAL BONDING AND MOLECULAR STRUCTURE

    DINESH PUBLICATION|Exercise Reason Assertion|37 Videos

  • CHEMICAL BONDING AND MOLECULAR STRUCTURE

    DINESH PUBLICATION|Exercise Comprehension M.C.Q|24 Videos

  • CARBOXYLIC ACIDS

    DINESH PUBLICATION|Exercise BRAIN STORMING MULTIPLE CHOICE QUESTIONS (MCQS)|13 Videos

  • CHEMICAL KINETICS

    DINESH PUBLICATION|Exercise Additional Numerical Problems For Practice|16 Videos

Similar Questions

Explore conceptually related problems

Statements in Column I are labelled as A, B, C and D whereas the statements in Column II are labelled as p, q, r and s. The answers to these questions are to be appropriately bubbled as illustrated below in the following example. If the correct matches are A-p, A-s, B-q, B-r, C-p, C-q and D-p, their corretly labelled 4times 4 matrix should look like : {:(,"Column-I",,"Column-II",),((A),"Ionic solids",p.,"Dry ice",),((B),"Molecular solids",q.,"Brass",),((C),"Covalent solids",r.,"Generally insulators",),((D),"Metallic solids",s.,"Generally have low melting points",):}

{:("Column I (Type of crystal)", "Column II (Example/Property)"),("(A) Ionic solids" , "(p) Dry ice"),("(B) Molecular solids", "(q) Brass"),("(C) Covalent solids" , "(r) Generally insulators"),("(D) Metallic solids" , "(s) Generally have low melting points"):}

Knowledge Check

  • Match the Column-I with Column-II: {:("Column-I","Column-II"),((A)"van arkel method",(p)"purification of copper"),((B)"Poling",(q)"Refining of silver"),((C )"Cupeilation",(r )"Manufacture of"Na_(2)CO_(3)),((D)"Solvay process",(s)"Purification of titanium"):}

    A
    P-4,Q-1,R-3,S-2
    B
    P-3,Q-1,R-4,S-2
    C
    P-3,Q-4,R-2,S-1
    D
    P-4,Q-1,R-2,S-3

    • Similar Questions

    Explore conceptually related problems

    Match the column : {:("Column I","Column II"),((A)." Sucrose",(P)." Two acetals"),((B)." Maltose",(Q)." No hemiacetal"),((C)." Lactose",(R)." "beta-1","4'-"glycosidic bond"),((D)." Cellulose",(S)." Hydrolysis product is glucose"):}

    {:(Column-I("Metal"),column-II),((A)"Magnesite",(p)"Ore of magnesium"),((B)"Siderite",(q)"Ore of aluminium"),((C)"Corundum",(r)"Oxide ore"),((D)"Bauxite",(s)"Carbonate ore"):}

    {:("Column-I","Column-II"),((A)NH_3, "p linear"),((B)BeF_2, "q polar"),((C )H_2O, "r" mu "=0D"),((D)CO_2, "s Angular"):}

    Match the column {:("Column I","Column II"),((A)." Sucrose",(P)." "alpha-D" Glucose"),((B)." Maltose",(Q)." "beta-"Fructose"),((C)." Lactose",(R)." "beta-D-"Glucose"),(,(S)." "beta-D-"Galactose"):}

    Match the quantity of Column I with the quantity of Column II {:(,"Column I",,"Column II"),("(A)","Glycine","(p)","Has S-S linkage"),("(B)","Arginine","(q)","Optically active"),("(C)","Glutamic acid","(r)","Has pH less than 7"),("(D)","Cystine","(s)","Has pH greater 7"):}

    Match Column -I with Column -II {:("Column-I","Column-II"),((A)"Refractory metal",(p)Li),((B)"Metal used in the Grignard reagent",(q)Mg),(( C)"The metal which form hydrated chloride",( r)Cs),((D)"Metal used in the photoelectric cell ",(s) K):}

    |{:(,"Column I",,"Column II"),((A),"Adenine",(p),"Purine"),((B),"Thymine",(q),"Pyrimidine"),((C ),"Uracil",(r ),RNA),((D),"Deoxyribose",(s),DNA):}|

    Home
    Profile