Number of bonds in given compound is:
`CH_(2)=C=CH-C=CH`

To determine the number of bonds in the compound `CH₂=C=CH-C=CH`, we can follow these steps: ### Step 1: Identify the Structure The compound can be rewritten to visualize its structure better: - The compound consists of carbon (C) and hydrogen (H) atoms. - The structure can be represented as: ``` H H \ / C || C / \ C C || | H H ``` ### Step 2: Count the Carbon-Carbon Bonds - In the structure, we have: - 3 double bonds between carbon atoms. - Each double bond counts as 1 bond, so: - 3 double bonds = 3 C=C bonds. ### Step 3: Count the Carbon-Hydrogen Bonds - Each carbon atom is typically bonded to hydrogen atoms. - In this structure: - The first carbon (C) has 2 H atoms (C-H bonds). - The second carbon (C) is involved in a double bond with the first carbon and has 1 H atom. - The third carbon (C) is involved in a double bond with the second carbon and has 1 H atom. - The fourth carbon (C) is involved in a double bond with the third carbon and has 1 H atom. - The fifth carbon (C) has 1 H atom. - Therefore, the total number of C-H bonds is: - 2 (from the first carbon) + 1 + 1 + 1 + 1 = 6 C-H bonds. ### Step 4: Total Bond Count - Now, we add the number of C-C bonds and C-H bonds: - C-C bonds: 3 - C-H bonds: 6 - Total bonds = C-C bonds + C-H bonds = 3 + 6 = 9 bonds. ### Step 5: Adjust for Missing Hydrogen - The initial count of hydrogen was missing one hydrogen atom based on the structure. - Adding this missing hydrogen gives us 1 more bond. ### Final Count - Total bonds = 9 (from C-C and C-H) + 1 (missing H) = 10 bonds. ### Conclusion The total number of bonds in the compound `CH₂=C=CH-C=CH` is **10**. ---