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प्रश्न
will CS2 conduct electricity or not?
give reason for your choice.
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उत्तर
CS2 is covalent in nature therefore, it will not conduct electricity
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संबंधित प्रश्न
Write structural formula of Methane.
List three characteristic properties of covalent compounds.
What would be the electron dot structure of carbon dioxide which has the formula CO2?
Butanone is a four-carbon compound with the functional group:
Explain the bonding in methane molecule using electron dot structure.
What would be the electron-dot structure of carbon dioxide which has the formula CO2?
Fill in the blank in the following sentence:
The number of single covalent bonds in C2H2 molecule are ...........
Which inert gas does the H atom in HCl resemble in electron arrangement?
Two non-metals combine with each other by the sharing of electrons to form a compound X.
(a) What type of chemical bond is present in X?
(b) State whether X will have a high melting point or low melting point.
(c) Will it be a good conductor of electricity or not?
(d) Will it dissolve in an organic solvent or not?
Draw all possible structural formulae of compound from their molecular formula given below.
C3H8
Give examples for the following:
Two solid covalent compounds.
Explain why Carbon tetrachloride does not dissolve in water.
Draw the electron dot diagram and structure of magnesium chloride.
Write an Explanation.
Alkyne
Carbon forms four covalent bonds by sharing its four valence electrons with four univalent atoms, e.g., hydrogen. After the formation of four bonds, carbon attains the electronic configuration of ______.
Which of the following are correct structural isomers of butane?
- \[\begin{array}{cc}
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\\
\ce{H - C - C - C - C - H}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\\
\end{array}\] - \[\begin{array}{cc}
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\\
|\phantom{....}|\phantom{....}|\\
\ce{H - C - C - C - H}\\
|\phantom{.....}|\phantom{.....}|\\
\ce{H}\ce{H-C-H}\ce{H}\\
|\\
\ce{H}\\
\end{array}\] - \[\begin{array}{cc}
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\\
|\phantom{....}|\phantom{....}|\\
\ce{H - C - C - C - H}\\
|\phantom{.....}\backslash\phantom{..}|\\
\phantom{....}\ce{H}\phantom{......}\ce{C - H}\phantom{}\\
\phantom{.......}|\\
\phantom{.......}\ce{H}\\
\end{array}\] - \[\begin{array}{cc}
\ce{H}\phantom{...}\ce{H}\\
|\phantom{....}|\\
\ce{H - C - C - H}\\
|\phantom{....}|\\
\ce{H - C - C - H}\\
|\phantom{....}|\\
\ce{H}\phantom{...}\ce{H}\\
\end{array}\]
Oils on treating with hydrogen in the presence of palladium or nickel catalyst form fats. This is an example of
In covalent bond formation, the sharing of ______ electrons takes place in their outermost shell.
"Carbon prefers to share its valence electrons with other atoms of carbon or with atoms of other elements rather than gaining or losing the valence electrons in order to attain noble gas configuration." Give reasons to justify this statement.
