A 500 ml vessel contains 1.5 M each of A, B, C and D at equilibrium if 0.5 M each of C and D are taken out the value of `K_c` for `A+BiffC+D` will be

For the reaction A+BhArr3C at 25^(@)C , a 3 litre volume reaction vessel contains 1,2 and 4 moles of A,B and C respectively at equilibrium, calculate the equilibrium constant K_(c) of the reaction at 25^(@)C .

If an a triangle A B C , b=3 c, a n d C-B=90^0, then find the value of tanB

The reaction A(g)+2BhArr2C(g)+D(g) was studied using an initial concentration of B which was 1.5 times that of A. The equilibrium concentration of A and C were found to be equal. So, K_c for the equilibrium is-

If A:B=1:2, B:C=3:4 and C:D=5:6, what is the value of A:B:C:D?

The reaction A(g)+4B(g)hArr2C(g)+3D(g) is carried out in a closed vessel of volume 2L by taking 3 mol of A(g) and 4 mol of B(g ). At equilibrium, if the amount of C(g) be 1 mol. then K_c for the reaction is-

In a closed vessel, the reaction 2A+3BhArr4C+2D is maintained at a constant temperature. Initially the no. of moles of A was twice to that of B and at equilibrium B and D have equals no. of moles. At equilibrium the convert order of no. moles of A, B, C and D are-

What should be added to each of a,b,c,d to make the sums proportional?

If a,b,c,d,e are in A.P., then the value of (a+b+5c-5d+e) in terms of a is-

A ,B ,C and D have position vectors vec a , vec b , vec c and vec d , respectively, such that vec a- vec b=2( vec d- vec c)dot Then a. A Ba n dC D bisect each other b. B Da n dA C bisect each other c. A Ba n dC D trisect each other d. B Da n dA C trisect each other

If a+c = 2b and 2/c= 1/b+1/d then prove that a:b = c:d.