33448
When rate of forward reaction becomes equal to backward reaction, this state is termed as
1 Chemical equilibrium
2 Reversible state
3 Equilibrium
4 All of these
Explanation:
At equilibrium, the rate of forward reaction is equal to rate of backward reaction. This is as per the definition of the equilibrium. When a reversible reaction is carried out in a closed vessel, a stage is reached when the forward and the backward reactions proceed with the same speed. This stage is known as chemical equilibrium.
Chemical Equilibrium
33449
In chemical reaction \(A\) \(\rightleftharpoons\) \(B\), the system will be known in equilibrium when
1 A completely changes to \( B\)
2 \(50\%\) of \(A\) changes to \(B\)
3 The rate of change of \(A\) to \(B\) and \(B\) to \(A\) on both the sides are same
4 Only \(10\%\) of \(A\) changes to \(B\)
Explanation:
(c) When rate of forward reaction is equal to rate of backward reaction the reaction is said to be in equilibrium.
Chemical Equilibrium
33450
A chemical reaction is at equilibrium when
1 Reactants are completely transformed into products
2 The rates of forward and backward reactions are equal
3 Formation of products is minimised
4 Equal amounts of reactants and products are present
Explanation:
If the rate of forward reaction equals rate of backward reaction, then the reaction is said to be in equilibrium. At this stage, there is no further change in the concentrations of reactants as well as products.
Chemical Equilibrium
33451
In the chemical reaction \({N_2} + 3{H_2}\) \(\rightleftharpoons\) \(2N{H_3}\) at equilibrium point, state whether
1 Equal volumes of \({N_2}\) and \({H_2}\) are reacting
2 Equal masses of \({N_2}\) and \({H_2}\) are reacting
3 The reaction has stopped
4 The same amount of ammonia is formed as is decomposed into \({N_2}\) and \({H_2}\)
Explanation:
(d)At equilibrium rate of forward reaction is equal to the rate of backward reaction.
33448
When rate of forward reaction becomes equal to backward reaction, this state is termed as
1 Chemical equilibrium
2 Reversible state
3 Equilibrium
4 All of these
Explanation:
At equilibrium, the rate of forward reaction is equal to rate of backward reaction. This is as per the definition of the equilibrium. When a reversible reaction is carried out in a closed vessel, a stage is reached when the forward and the backward reactions proceed with the same speed. This stage is known as chemical equilibrium.
Chemical Equilibrium
33449
In chemical reaction \(A\) \(\rightleftharpoons\) \(B\), the system will be known in equilibrium when
1 A completely changes to \( B\)
2 \(50\%\) of \(A\) changes to \(B\)
3 The rate of change of \(A\) to \(B\) and \(B\) to \(A\) on both the sides are same
4 Only \(10\%\) of \(A\) changes to \(B\)
Explanation:
(c) When rate of forward reaction is equal to rate of backward reaction the reaction is said to be in equilibrium.
Chemical Equilibrium
33450
A chemical reaction is at equilibrium when
1 Reactants are completely transformed into products
2 The rates of forward and backward reactions are equal
3 Formation of products is minimised
4 Equal amounts of reactants and products are present
Explanation:
If the rate of forward reaction equals rate of backward reaction, then the reaction is said to be in equilibrium. At this stage, there is no further change in the concentrations of reactants as well as products.
Chemical Equilibrium
33451
In the chemical reaction \({N_2} + 3{H_2}\) \(\rightleftharpoons\) \(2N{H_3}\) at equilibrium point, state whether
1 Equal volumes of \({N_2}\) and \({H_2}\) are reacting
2 Equal masses of \({N_2}\) and \({H_2}\) are reacting
3 The reaction has stopped
4 The same amount of ammonia is formed as is decomposed into \({N_2}\) and \({H_2}\)
Explanation:
(d)At equilibrium rate of forward reaction is equal to the rate of backward reaction.
33448
When rate of forward reaction becomes equal to backward reaction, this state is termed as
1 Chemical equilibrium
2 Reversible state
3 Equilibrium
4 All of these
Explanation:
At equilibrium, the rate of forward reaction is equal to rate of backward reaction. This is as per the definition of the equilibrium. When a reversible reaction is carried out in a closed vessel, a stage is reached when the forward and the backward reactions proceed with the same speed. This stage is known as chemical equilibrium.
Chemical Equilibrium
33449
In chemical reaction \(A\) \(\rightleftharpoons\) \(B\), the system will be known in equilibrium when
1 A completely changes to \( B\)
2 \(50\%\) of \(A\) changes to \(B\)
3 The rate of change of \(A\) to \(B\) and \(B\) to \(A\) on both the sides are same
4 Only \(10\%\) of \(A\) changes to \(B\)
Explanation:
(c) When rate of forward reaction is equal to rate of backward reaction the reaction is said to be in equilibrium.
Chemical Equilibrium
33450
A chemical reaction is at equilibrium when
1 Reactants are completely transformed into products
2 The rates of forward and backward reactions are equal
3 Formation of products is minimised
4 Equal amounts of reactants and products are present
Explanation:
If the rate of forward reaction equals rate of backward reaction, then the reaction is said to be in equilibrium. At this stage, there is no further change in the concentrations of reactants as well as products.
Chemical Equilibrium
33451
In the chemical reaction \({N_2} + 3{H_2}\) \(\rightleftharpoons\) \(2N{H_3}\) at equilibrium point, state whether
1 Equal volumes of \({N_2}\) and \({H_2}\) are reacting
2 Equal masses of \({N_2}\) and \({H_2}\) are reacting
3 The reaction has stopped
4 The same amount of ammonia is formed as is decomposed into \({N_2}\) and \({H_2}\)
Explanation:
(d)At equilibrium rate of forward reaction is equal to the rate of backward reaction.
33448
When rate of forward reaction becomes equal to backward reaction, this state is termed as
1 Chemical equilibrium
2 Reversible state
3 Equilibrium
4 All of these
Explanation:
At equilibrium, the rate of forward reaction is equal to rate of backward reaction. This is as per the definition of the equilibrium. When a reversible reaction is carried out in a closed vessel, a stage is reached when the forward and the backward reactions proceed with the same speed. This stage is known as chemical equilibrium.
Chemical Equilibrium
33449
In chemical reaction \(A\) \(\rightleftharpoons\) \(B\), the system will be known in equilibrium when
1 A completely changes to \( B\)
2 \(50\%\) of \(A\) changes to \(B\)
3 The rate of change of \(A\) to \(B\) and \(B\) to \(A\) on both the sides are same
4 Only \(10\%\) of \(A\) changes to \(B\)
Explanation:
(c) When rate of forward reaction is equal to rate of backward reaction the reaction is said to be in equilibrium.
Chemical Equilibrium
33450
A chemical reaction is at equilibrium when
1 Reactants are completely transformed into products
2 The rates of forward and backward reactions are equal
3 Formation of products is minimised
4 Equal amounts of reactants and products are present
Explanation:
If the rate of forward reaction equals rate of backward reaction, then the reaction is said to be in equilibrium. At this stage, there is no further change in the concentrations of reactants as well as products.
Chemical Equilibrium
33451
In the chemical reaction \({N_2} + 3{H_2}\) \(\rightleftharpoons\) \(2N{H_3}\) at equilibrium point, state whether
1 Equal volumes of \({N_2}\) and \({H_2}\) are reacting
2 Equal masses of \({N_2}\) and \({H_2}\) are reacting
3 The reaction has stopped
4 The same amount of ammonia is formed as is decomposed into \({N_2}\) and \({H_2}\)
Explanation:
(d)At equilibrium rate of forward reaction is equal to the rate of backward reaction.
