`""_3^7Li + A to ""_2^4He + B`. A and B are respectively......

If the position vectors of A and B are respectively hati+3hatj-7hatk and 5 hati-2hatj+4hatk , then find AB vector

Show that if f: R - {7/5} rarr R - {3/5} is defined by f(x) = (3x+4)/(5x-7) and g: R - {3/5} rarr R - {7/5} is defined by g(x) = (7x +4)/(5x-3) , then fog =I_A and gof = I_(B) , where A = R - {3/5} , B = R - {7/5} , I_(A) (x) = x, AA x in A , I_(B) (x) = x, AA x in B are called identity functions on sets A and B , respectively .

If the binding energy per nucleon in ._(3)Li^(7) and ._(2)He^(4) nuclei are respectively 5.60 MeV and 7.06 MeV, then the ebergy of proton in the reaction ._(3)Li^(7) +p rarr 2 ._(2)He^(4) is

If the coordinates of the points A, B, C, D be (1, 2, 3), (4, 5, 7), (-4, 3, -6) and (2, 9, 2) respectively, then find the angle between the lines AB and CD.

Find the equation of set of points P such that PA^(2)+PB^(2)=2k^(2) , where A and B are the points (3, 4, 5) and (-1,3,-7) , respectively.

If the position vectors of the points A,B and C be a,b and 3a-2b respectively, then prove that the points A,B and C are collinear.

The atomic masses of Li, He and proton are 7.01823 amu, 4.00387 amu and 1.00715 amu respectively. Calculate the energy evolved in the reaction, 3^(Li^(7)) + 1^(H^(1)) rarr 2 2^(He^(4)) + triangle E Given 1 amu = 931 MeV.

If A and B be the points (3, 4, 5) and (-1, 3, -7) respectively, find the equation of the set of points P such that PA^(2)+PB^(2)=k^(2) , where k is a constant.