Answer:
Bonding Order = number of bonding electrons – number of antibonding electrons/2.
So for CO2, there is a total of 16 electrons, 8 of which are antibonding electrons.
So 16 – 8 = 8; divided by 2 = 4. So, 4 is the bonding order of CO2. The molecular structure of CO2 looks like this:
..~-~~..
O=C=O
..~-~~..
Answer:
The correct option is: (e) A(g)⇌2B(g)
Explanation:
According to the Le Chatelier's principle, for a <u>gaseous system</u> at equilibrium, the change in the pressure of the system causes the equilibrium to change in the direction that reduces or counteracts the change in the pressure.
According to the ideal gas equation: PV = nRT
⇒ pressure (P) ∝ (n) number of moles of gas
Therefore, when the <u>pressure of the system decreases</u>,<u> the equilibrium of the system shifts to the reaction side that increases the number of moles of gas. Thus increasing the pressure.</u>
A(g)⇌2B(g)
In the given reaction, <u>the number of moles of gaseous products is greater than reactants.</u> Therefore, when the <u>pressure decreases,</u> the direction of the <u>equilibrium shifts towards the products side </u>that has more number of moles of gas.
<u>Therefore, for this system, decrease in the pressure, favors the product formation.</u>
Answer:the temperature might increase because of the humidity in the room so everything gets goofy and moist
Explanation:
Answer:
Newton's second law of motion describes the relationship between an object's mass and the amount of force needed to accelerate it.
Explanation: