Organic chemistry Jeopardy Template

Hydrocarbons

Functional Groups & Naming

Reaction Conditions

Reaction Mechanisms

Organic in Action

100

What two elements make up all hydrocarbons?

Carbon and hydrogen

100

What is a functional group?

A group of atoms responsible for characteristic reactions of a compound.

100

What are the conditions needed for the substitution of methane with bromine?

UV light (photochemical reaction)

100

What type of mechanism occurs when methane reacts with bromine under UV light?

Free radical substitution

100

What does CFC stand for?

Chlorofluorocarbon

200

What type of bonds are found between carbon atoms in alkanes?

Single covalent bonds (C–C)

200

What functional group is found in alcohols?

Hydroxyl (–OH)

200

What reagent and conditions are required for the hydrogenation of ethene to ethane?

Hydrogen gas, nickel catalyst, 150 °C

200

What initiates this substitution reaction?

Ultraviolet light (causes homolytic fission of Br–Br bond)

200

Why were CFCs banned or restricted?

They deplete the ozone layer, producing toxic breakdown products.

300

Which hydrocarbon has the formula C₂H₄ and contains a double bond?

Ethene

300

What is the suffix used for carboxylic acids?

–oic acid

300

Under what conditions does dehydration of ethanol to ethene occur?

Concentrated sulfuric acid, heat (170 °C)

300

What type of mechanism occurs when ethene reacts with bromine?

Electrophilic addition

300

What is a modern replacement for CFCs used in refrigerants?

Hydrofluorocarbons (HFCs)

400

How does the reactivity of alkenes differ from that of alkanes?

Alkenes are more reactive due to the presence of a π bond (double bond).

400

What is the IUPAC name of CH₃CH₂COOH?

Propanoic acid

400

What reagent and conditions are needed to convert a halogenoalkane into an alcohol?

Aqueous NaOH, heat under reflux

400

In electrophilic addition, what bond breaks — homolytically or heterolytically?

Heterolytically

400

What property makes halogenoalkanes useful as solvents but environmentally risky?

They are volatile and stable in the atmosphere.

500

Explain why alkanes are described as “saturated.”

All carbon atoms have single bonds; no more hydrogen can be added without breaking bonds.

500

Identify the functional groups present in CH₃COOCH₂CH₃.

Ester group (–COO–)

500

Compare the conditions for substitution vs elimination of halogenoalkanes.

Substitution: aqueous conditions, lower temp; Elimination: ethanolic NaOH, higher temp

500

Explain why iodoalkanes react faster in nucleophilic substitution than bromoalkanes.

The C–I bond is weaker (lower bond enthalpy), so it breaks more easily.

500

Explain one industrial or environmental importance of organic reaction mechanisms.

Used in drug synthesis, polymer production, and understanding pollutant degradation.