Compound A decomposes to form B and C and the reaction is first order. At 25 °C the rate
constant for the reaction is 0.450 s-1. What is the half life of A at 25 °C?
Answers
PLEASE MARK ME AS THE BRAINLIEST
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius?
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius? A ---> B + C
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius? A ---> B + C4. The reaction 2N2O5(g) ---> 2N2O4(g) + O2(g) obeys the law: rate = k[N2O5] in which the specific rate constant is 0.00840 s^-1 at a certain temperature.
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius? A ---> B + C4. The reaction 2N2O5(g) ---> 2N2O4(g) + O2(g) obeys the law: rate = k[N2O5] in which the specific rate constant is 0.00840 s^-1 at a certain temperature.a. if 2.50 moles were placed in a 5 00 L container at that temperature, how many moles of N2O5 would remain after 1.00 min??
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius? A ---> B + C4. The reaction 2N2O5(g) ---> 2N2O4(g) + O2(g) obeys the law: rate = k[N2O5] in which the specific rate constant is 0.00840 s^-1 at a certain temperature.a. if 2.50 moles were placed in a 5 00 L container at that temperature, how many moles of N2O5 would remain after 1.00 min??b How long would it take for 90% of the original N2O5 to react?
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius? A ---> B + C4. The reaction 2N2O5(g) ---> 2N2O4(g) + O2(g) obeys the law: rate = k[N2O5] in which the specific rate constant is 0.00840 s^-1 at a certain temperature.a. if 2.50 moles were placed in a 5 00 L container at that temperature, how many moles of N2O5 would remain after 1.00 min??b How long would it take for 90% of the original N2O5 to react?5. Compounds A and B react to form C and D in a reaction that was found to be second order in A and second order overall. The rate constant at 30 degrees Celsius is 0.622 L/mol-min. What is the half life of A when 4.10 X10 ^-2M is mized with excess B?
Compound a decomposes to form B ad C in a reaction that is first order with respect to A and first order overall. At 25 degrees Celsius, the specific rate constant for the reaction is 0.0450 s^-1. What is the half-life of A at 25 degrees Celsius? A ---> B + C4. The reaction 2N2O5(g) ---> 2N2O4(g) + O2(g) obeys the law: rate = k[N2O5] in which the specific rate constant is 0.00840 s^-1 at a certain temperature.a. if 2.50 moles were placed in a 5 00 L container at that temperature, how many moles of N2O5 would remain after 1.00 min??b How long would it take for 90% of the original N2O5 to react?5. Compounds A and B react to form C and D in a reaction that was found to be second order in A and second order overall. The rate constant at 30 degrees Celsius is 0.622 L/mol-min. What is the half life of A when 4.10 X10 ^-2M is mized with excess B?A + B ---> C + D rate = k[A]^2