What is the rate law expression of a reaction between reactants A and B whose rate...

Consider the reaction: A + B → products The following rate law was experimentally determined: rate...

Consider the reaction: A + B → products The following rate law was experimentally determined: rate = k[A][B]2 If the concentration of A stays the same and B doubles, the rate will increase by a factor of sixteen. triple. quadruple. double. Which statement is correct? The exponents in the rate law NEVER match the coefficients in the balanced chemical reaction. The exponents in the rate law MUST be determined by experiment. The exponents in the rate law ALWAYS match the...

Answer the following questions for a reaction whose rate law is: rate = k[A][B] What is...

Answer the following questions for a reaction whose rate law is: rate = k[A][B] What is the overall order of the reaction? Select one: a. first b. second c. Third If the concentration of both A and B are doubled, how will this affect the rate of reaction? Select one: a. no change b. rate increases by a factor of 2 c. rate increases by a factor of 4 d. rate increases by a factor of 8second c. third

Consider the reaction: A(g)+1/2B(g)→2C(g). Determine the expression for the rate of the reaction with respect to...

Consider the reaction: A(g)+1/2B(g)→2C(g). Determine the expression for the rate of the reaction with respect to each of the reactants and products. When C is increasing at a rate of 1.5×10−2 M⋅s−1 , how fast is B decreasing?How fast is A decreasing? please show work, i am a but lost

1A. For a first order reaction, the rate will double if a.      Concentration of a reactant...

1A. For a first order reaction, the rate will double if a.      Concentration of a reactant is doubled b.     Concentration of a product is doubled c.      Concentration of a reactant is squared d.     Temperature is raised two degrees e.    2 moles of catalyst are added 1B.     For a second order decomposition reaction (one reactant), if the concentration of the reactant is tripled, the rate: a.      Triples b.     Increases nine-fold c.      Decreases by one third d.     Stays the same

Given a reaction between an organic molecule, denoted as A, and NaSH, we observe the following...

Given a reaction between an organic molecule, denoted as A, and NaSH, we observe the following observations. Using the observations, write a rate law for the reaction. (a) The rate triples when the concentration of [A] is tripled and the concentration of [NaSH] is held constant. (b) The rate is decreased when the concentration of [A] is doubled and the concentration of [NaSH] is cut by a factor of 3. (c) The rate doubles when the concentration of [A] is...

The rate law for the reaction A + B + C => D is: Rate =...

The rate law for the reaction A + B + C => D is: Rate = k[A]2[B] a. How will the reaction rate change if [A] is doubled? b. How will the reaction rate change if [B] is decreased to 1/4th of the initial concentration? c. How will the reaction rate change if [C] is increased by 3times? What is the expected rate constant value for this experiment?

At a certain concentration of reactants the rate of appearance of water in the following reaction...

At a certain concentration of reactants the rate of appearance of water in the following reaction is 0.75 M/s. HINT: Watch the sign of the rate! 4NH3 + 7O2 4NO2 + 6H2O (A) What is the rate of reaction of O2?_____M/s (B) What is the rate of reaction of NH3?____M/s (C) What is the rate of reaction of NO2?_____M/s

The integrated rate law allows chemists to predict the reactant concentration after a certain amount of...

The integrated rate law allows chemists to predict the reactant concentration after a certain amount of time, or the time it would take for a certain concentration to be reached. The integrated rate law for a first-order reaction is: [A]=[A]0e−kt Now say we are particularly interested in the time it would take for the concentration to become one-half of its initial value. Then we could substitute [A]02 for [A] and rearrange the equation to: t1/2=0.693k This equation calculates the time...

3)The thermal decomposition of acetaldehyde is a second order reaction CH3CHO-> CH4+CO from the data shown...

3)The thermal decomposition of acetaldehyde is a second order reaction CH3CHO-> CH4+CO from the data shown below, calculate the average rate of change in the pressure of acetaldehyde between 42 and 105 s. include the correct sign and units. ( this is analogous to finding the average rate of change in concentration, just substitute pressure for concentration.) 4) for the reaction shown below which one of the following statements can you rightly assume? 2H2S (g) +O2 (g) ->2S (s)+ 2H2O...

2. TheratelawforthereactionA+B→Productswasfoundtoberate=k[A][B]2. a. What is the reaction order with respect to A? b. What is the...

2. TheratelawforthereactionA+B→Productswasfoundtoberate=k[A][B]2. a. What is the reaction order with respect to A? b. What is the reaction order with respect to B? c. What is the overall order of the reaction? d. If the concentration of A is doubled while B is left unchanged, what happens to the rate of the reaction? e. If the concentration of B is doubled while A remains unchanged, what happens to the rate of the reaction? f. What does k represent in the rate...