![In the following gaseous phase first order reaction A(g) → 2 B(g) + C(g) initial pressure was found to be 400 mm of Hg and it changed to 1000 mm of Hg In the following gaseous phase first order reaction A(g) → 2 B(g) + C(g) initial pressure was found to be 400 mm of Hg and it changed to 1000 mm of Hg](https://dwes9vv9u0550.cloudfront.net/images/12165006/0fcf6e57-1e88-4f48-a0c5-c66f31948c1a.jpg)
In the following gaseous phase first order reaction A(g) → 2 B(g) + C(g) initial pressure was found to be 400 mm of Hg and it changed to 1000 mm of Hg
![If the half life period for a first order reaction is 69*3 seconds, what is the value of its rate constant ? If the half life period for a first order reaction is 69*3 seconds, what is the value of its rate constant ?](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/643825449_web.png)
If the half life period for a first order reaction is 69*3 seconds, what is the value of its rate constant ?
10. rate constant of first order reaction is 0.0693per minute . calculate the percentage of reaction remaining at the end of the 60 minute.(with detail solution )
![For a reaction A ⟶ B + C . it was found that at the end of 10 minutes from the start the total optical rotation of the system was 50^o and For a reaction A ⟶ B + C . it was found that at the end of 10 minutes from the start the total optical rotation of the system was 50^o and](https://dwes9vv9u0550.cloudfront.net/images/5519633/b828fca7-1329-4718-8e5b-5830a3c17575.jpg)
For a reaction A ⟶ B + C . it was found that at the end of 10 minutes from the start the total optical rotation of the system was 50^o and
![a) For a reaction ABrarrP , the rate law is given by, r=k[A]^(1//2)[B]^(2). What is the order of this reaction? (b) A first order reaction is found to have a rate constant a) For a reaction ABrarrP , the rate law is given by, r=k[A]^(1//2)[B]^(2). What is the order of this reaction? (b) A first order reaction is found to have a rate constant](https://d10lpgp6xz60nq.cloudfront.net/ss/web/885563.jpg)
a) For a reaction ABrarrP , the rate law is given by, r=k[A]^(1//2)[B]^(2). What is the order of this reaction? (b) A first order reaction is found to have a rate constant
![The reaction is given below, the rate constant for disappearance of A is 7.48 × 10^-3sec^-1 . The time required for the total pressure in a system containing A at an initial The reaction is given below, the rate constant for disappearance of A is 7.48 × 10^-3sec^-1 . The time required for the total pressure in a system containing A at an initial](https://dwes9vv9u0550.cloudfront.net/images/7494062/9a53962a-6c66-4413-b6bb-d895ebabd6e9.jpg)
The reaction is given below, the rate constant for disappearance of A is 7.48 × 10^-3sec^-1 . The time required for the total pressure in a system containing A at an initial
✓ Solved: The rate constant for a certain radioactive nuclide is 1.0 × 10^-3 h^-1 .What is the half-life...
![The unit of first order rate constant when concentration is measured in terms of pressure and time - YouTube The unit of first order rate constant when concentration is measured in terms of pressure and time - YouTube](https://i.ytimg.com/vi/uhZPmGH4NTI/maxresdefault.jpg)
The unit of first order rate constant when concentration is measured in terms of pressure and time - YouTube
![The energy of activation and specific rate constant for a first order reaction at 25^∘ C are 100kJ/mole and 3.46 × 10^-5sec^-1 respectively. Determine the temperature at which half - life of The energy of activation and specific rate constant for a first order reaction at 25^∘ C are 100kJ/mole and 3.46 × 10^-5sec^-1 respectively. Determine the temperature at which half - life of](https://dwes9vv9u0550.cloudfront.net/images/10158069/3164a678-0d0e-4fcb-876b-59cc98cd148c.jpg)
The energy of activation and specific rate constant for a first order reaction at 25^∘ C are 100kJ/mole and 3.46 × 10^-5sec^-1 respectively. Determine the temperature at which half - life of
![SOLVED: The potassium isotope K-40 undergoes beta decay with a half-life of 1.83*10^9 years. Find the number of beta decays that occur per second in 1.0g of pure K-40. SOLVED: The potassium isotope K-40 undergoes beta decay with a half-life of 1.83*10^9 years. Find the number of beta decays that occur per second in 1.0g of pure K-40.](https://cdn.numerade.com/previews/fe55f358-200b-418b-a318-d106fbbbfe1a_large.jpg)
SOLVED: The potassium isotope K-40 undergoes beta decay with a half-life of 1.83*10^9 years. Find the number of beta decays that occur per second in 1.0g of pure K-40.
![Calculate the half life of a first order reaction from their rate constants given below:(a) 200 s^-1 ; (b) 2 min^-1 ; (c) 4 year^-1 . Calculate the half life of a first order reaction from their rate constants given below:(a) 200 s^-1 ; (b) 2 min^-1 ; (c) 4 year^-1 .](https://i.ytimg.com/vi/LwkqOiw5wm8/maxresdefault.jpg)
Calculate the half life of a first order reaction from their rate constants given below:(a) 200 s^-1 ; (b) 2 min^-1 ; (c) 4 year^-1 .
![A first order reaction is found to have a rate constant k= 5.5 xx 10^(-14)s^(-1). Find half-life of the reaction. A first order reaction is found to have a rate constant k= 5.5 xx 10^(-14)s^(-1). Find half-life of the reaction.](https://d10lpgp6xz60nq.cloudfront.net/ss/web/822097.jpg)
A first order reaction is found to have a rate constant k= 5.5 xx 10^(-14)s^(-1). Find half-life of the reaction.
![The reaction `A(g)toB(g)+2C(g)` is a first order reaction with rate constant `2.772xx10^(-3)sec^(-1) - YouTube The reaction `A(g)toB(g)+2C(g)` is a first order reaction with rate constant `2.772xx10^(-3)sec^(-1) - YouTube](https://i.ytimg.com/vi/uUvT3nL3BJA/maxresdefault.jpg)
The reaction `A(g)toB(g)+2C(g)` is a first order reaction with rate constant `2.772xx10^(-3)sec^(-1) - YouTube
Calculate the half life of a first order reaction from their rate constants given below:(a) 200 s^-1 ; (b) 2 min^-1 ; (c) 4 year^-1 .
![For the elementary reaction 2A → C ,the concentration of A after 30 minutes was found to be 0.01 mole/lit. If the rate constant of the reaction is 2.5 × 10^-2 lit For the elementary reaction 2A → C ,the concentration of A after 30 minutes was found to be 0.01 mole/lit. If the rate constant of the reaction is 2.5 × 10^-2 lit](https://dwes9vv9u0550.cloudfront.net/images/1818262/beb806c6-faa5-4fc1-a7e6-ea3b17c24ab0.jpg)