CH3BR+_->_+C2H6
The given chemical equation shows the reaction between CH3Br and C2H6. To balance the equation, follow these steps:
Step 1: Write down the unbalanced equation:
CH3Br + _______ → _______ + C2H6
Step 2: Start by balancing the carbon atoms:
There is one carbon atom on the left side (CH3Br) and two carbon atoms on the right side (C2H6). To balance the carbon atoms, put a coefficient of 2 in front of CH3Br on the left side.
2CH3Br + _______ → _______ + C2H6
Step 3: Next, balance the hydrogen atoms:
There are six hydrogen atoms on the left side (from CH3Br) and six hydrogen atoms on the right side (from C2H6). The equation is now balanced for hydrogen.
Step 4: Finally, balance the bromine atoms:
There are two bromine atoms on the left side (from 2CH3Br) and no bromine atoms on the right side. To balance the bromine atoms, put a coefficient of 2 in front of Br2 on the right side.
2CH3Br + _______ → _______ + 2C2H6
The balanced equation is:
2CH3Br + Br2 → _______ + 2C2H6
Unfortunately, the reaction is not complete as the product on the left side is not specified.
The chemical equation you provided represents a reaction that converts CH3Br (methyl bromide) into C2H6 (ethane). The reaction produces an unspecified positive ion (+) as a byproduct.
To explain the reaction using the chemical equation, we can break it down step by step:
1. Start with CH3Br: Methyl bromide is a compound with a methyl group (CH3) attached to a bromine atom (Br).
2. Reactant: The arrow in the equation indicates the direction of the reaction. In this case, CH3Br is the reactant or the starting material.
3. Ionic dissociation: In the reaction, CH3Br undergoes a process called ionization or dissociation. It breaks apart into its constituent ions by losing or gaining electrons. In this equation, CH3Br loses an electron to become CH3Br+.
4. Intermediate species: The CH3Br+ formed in the previous step is an intermediate species, represented by the + sign.
5. Formation of ethane: The final step involves the conversion of CH3Br+ to C2H6, or ethane. Unfortunately, the equation you provided does not show the specific mechanism or reagents involved in forming ethane. Hence, it is not possible to explain the specific steps for this part of the reaction.
It is crucial to note that without additional information, it is challenging to provide a definite explanation for the reaction from CH3Br+ to C2H6 in the absence of details about the reaction conditions or catalysts involved.