For a given reaction `:M^((x+n))+n e^(-)rarr M^(c+),E^(c-).(red)` is known along with `M^(x+n)` and `M^(x+)` ion concentrations. Then

The equation e^x = m(m +1), m<0 has

The value of (a+i b)^(m / n)+(a-i b)^(m / n) is equal to

The reaction : X rarr Product follows first order kinetics . In 40 minutes the concentration of X changes from 0.1 to 0.025 M. Then the rate of reaction when concentration of X is 0.01 M is

lim_(x rarr oo) x^(n)/e^(x) = 0 (n is an integer) for

For the cell reaction Zn(s) +Cu^(2+)(0.1M) rarr zn^(2+)(0.01M) + Cu(s) , If E^(@) is the strandard e.m.f. of the cell, then

If x^(m)y^(n) = (x + y)^(m +n) then (dy)/(dx) is equal to

If n=4 m+3 , m is an integer then i^(n)=

Calculate the standard e.m.f. of the reaction Fe^(3+)+3e^(-)rarrFe_((s)) . Given the e.m.f. values of Fe^(3+)+e rarr Fe^(2+) and Fe^(2+)+2e rarr Fe_((s))" as "+0.771 V and =0.44V " respectively."

For the redox reaction x MnO_(4)^(-) + yH_(2)C_(2)O_(4) + zH^(+) to m Mn^(2+) +n CO_(2) + p H_(2)O The valeu of x, y, m and n are