The progress of the reaction `AtonB` with time t is shown in Fig.
From this information answer the following questions

The equilibrium constant `K_C` is

The progress of the reaction Ato nB with time t is shown in Fig. From this information answer the following questions The value of n. is

The progress of the reaction A hArr nB with time is persented in the figure given below: Determine a. The value of n. b. The equilibrium constant K. c. The initial rate of concentration of A.

The progress of the reaction, A ⇌ nB with time, is presented in figure given below. Determine. (i) The value of n, (ii) The equilibrium constant K, and (iii) the initial rate of conversion of A.

Observe the following reactions and answer the following questions For product (T), The correct statement is :

Observe the following reactions and answer the following questions For product (T), The correct statement is :

A block of mass m is connected to a spring constant k and is at rest in equilibrium as shown. Now, the block is Displacement by h below its equilibrium position and imparted a speed v_0 towards down as shown in the Fig. As a result of the jerk, the block executes simple harmonic motion about its equilibrium position. Based on this information, answer the following question. Q. The equation for the simple harmonic motion is

A block of mass m is connected to a spring constant k and is at rest in equilibrium as shown. Now, the block is Displacement by h below its equilibrium position and imparted a speed v_0 towards down as shown in the Fig. As a result of the jerk, the block executes simple harmonic motion about its equilibrium position. Based on this information, answer the following question. Q. The equation for the simple harmonic motion is

A block of mass m is connected to a spring constant k and is at rest in equilibrium as shown. Now, the block is Displacement by h below its equilibrium position and imparted a speed v_0 towards down as shown in the Fig. As a result of the jerk, the block executes simple harmonic motion about its equilibrium position. Based on this information, answer the following question. Q. The amplitude of oscillation is

What qualitative information can you obtain from the value of the equilibrium constant?

A block of mass m is connected to a spring constant k and is at rest in equilibrium as shown. Now, the block is Displacement by h below its equilibrium position and imparted a speed v_0 towards down as shown in the Fig. As a result of the jerk, the block executes simple harmonic motion about its equilibrium position. Based on this information, answer the following question. Q. Find the time taken by the block to cross the mean position for the first time.