I depends on the problem. The rate constant is different depending on the problem in which it occurs.
how does the rate law show how concentration changes after the rate of reaction
There is no difference between them they are same rate constant is another name of specific rate constant
The differentiation of a constant is zero because a constant value does not change with respect to the variable being differentiated. The derivative measures the rate of change of a function, and since a constant has no change, its derivative is zero.
constant rate means that rate which is fixed and can not be changed. varying rate is that rate which is not fixed and can be change easily.
The reaction rate is the rate at which the moles of substance change that varies with both temperature and concentration of the reactants. The specific rate constant is a proportionality constant that will vary only with temperature.
A relative rate constant the rate at which a reaction will take place. Ex. V = k [A][B] the constant ,k, is a constant value for the rate of the reaction in said equation.
how does the rate law show how concentration changes after the rate of reaction
The rate constant value for the acidic hydrolysis of ethyl acetate is in 10-3 and for alkaline hydrolysis is in 10-5.
What constitutes a constant growth stock is a stock that has dividends that are expected to grow at a constant rate. The formula used to value a constant growth stock is determined by the estimated dividends that will be paid divided by the difference between the required rate of return and growth rate.
how does the rate law show how concentration changes after the rate of reaction
It is a characteristic of the motion of a body in which the rate of change of velocity - with respect to time - has a constant value.
In a zero order overall process, the rate and rate constant will be the same. (Reaction order is an exponent, and if that exponent is "0" then the value is "1" and will cancel out.)
There is no difference between them they are same rate constant is another name of specific rate constant
If the relationship between two variables in a table is that of direct variation, then the unit rate or the constant of proportionality is determined by dividing any non-zero value of one of the variables by the corresponding value of the other variable.
The PV function is a financial function. It is used to return the present value of an investment based on an interest rate and a constant payment schedule. The syntax is a follows: PV( rate, number_payments, payment, [FV], [Type] ) Rate is the interest rate for the investment. Number_payments is the number of payments for the annuity. Payment is the amount of the payment made each period. If it is omitted, you have to enter a FV value. FV is optional. It is the future value of the payments. If it is omitted, it is assumed to be 0. Type is optional. It indicates when the payments are due. Type can be one of the following values: 0 for when payments are due at the end of the period, which is the default. 1 for when payments are due at the start of the period. If the Type parameter is left out, the PV function sets the Type value to 0.
The differentiation of a constant is zero because a constant value does not change with respect to the variable being differentiated. The derivative measures the rate of change of a function, and since a constant has no change, its derivative is zero.
The rate constant is the reaction rate divided by the concentration terms.