Following data are obtained for the reaction :
`N_(2)O_(5)rarr2NO_(2)+(1)/(2)O_(2)`
`{:(t(s)," "0," "300," "600),([N_(2)O_(5)("mol.L"^(-1))],1.6xx10^(-2),0.8xx10^(-2),0.4xx10^(-2)):}`
Show that it follows first order reaction.

Following data are obtained for the reaction : N_(2)O_(5)rarr2NO_(2)+(1)/(2)O_(2) {:(t(s)," "0," "300," "600),([N_(2)O_(5)("mol.L"^(-1))],1.6xx10^(-2),0.8xx10^(-2),0.4xx10^(-2)):} Calculate the half-life.

Following data are obtained for the reaction: N_(2)O_(5) rarr 2NO_(2) + .^(1//2) O_(2) |{:(t//s,0,300,600),([N_(2)O_(5)]//mol L^(-1),1.6 xx 10^(-2),0.8 xx 10^(-2),0.4 xx 10^(-2)):}| (a) Show that it follows first order reaction (b) Calculate the half-life (Given log 2 = 0.3010 log 4 = 0.6021]

Following data are obtained for the reaction: N_(2)O_(5) rarr 2NO_(2) + .^(1//2) O_(2) |{:(t//s,0,300,600),([N_(2)O_(5)]//mol L^(-1),1.6 xx 10^(-2),0.8 xx 10^(-2),0.4 xx 10^(-2)):}| (a) Show that it follows first order reaction (b) Calculate the half-life (Given log 2 = 0.3010 log 4 = 0.6021]

The initial concentration of N_(2)O_(5) in the following first order reaction N_(2)O_(5)rarr2NO_(2)(g)+(1)/(2)O_(2)(g) " was "1.24xx10^(-2)"mol.L"^(-1) at 318K. The concentration of N_(2)O_(5) after 60minutes was 0.20xx10^(-2)"mol.L"^(-1) . Calculate the rate constant of the reaction at 318K.

The initial concentration of N_(2)O_(5) in the following first order reaction: N_(2)O_(5)(g) rarr 2NO_(2)(g)+(1)/(2)O_(2)(g) was 1.24 xx 10^(-2) mol L^(-1) at 318 K . The concentration of N_(2)O_(5) after 60 min was 0.20 xx 10^(-2) mol L^(-1) . Calculate the rate constant of the reaction at 318 K .

For the reaction : N_(2)O_(4)(g)hArr 2NO_(2)(g) the concentration of the equilibrium mixture at 300 K are [N_(2)O_(4)]=4.8xx10^(-2)mol L^(-1) and [NO_(2)]=1.2xx10^(-2)mol L^(-1). K_(c ) for the reaction is :

For the reaction N_(2)O_(5) rarr 2NO_(2) + (1)/(2) O_(2) , the rate of disappearance of N_(2)O_(5) is 6.25 xx 10^(-3) "mol L"^(-1) s^(-1) . The rate of formation of NO_(2) and O_(2) will be respectively.

For the reaction N_(2)O_(5) rarr 2NO_(2) + (1)/(2) O_(2) , the rate of disappearance of N_(2)O_(5) is 6.25 xx 10^(-3) "mol L"^(-1) s^(-1) . The rate of formation of NO_(2) and O_(2) will be respectively.

The rate coristant for the reaction 2N_2O_5(g)rarr 2N_2O_4(g)+O_2(g) is 4.98 xx 10^(-4) s^(-1) . The order of reaction is