If `e=2.71828,` then `e^(1.002)~~…`

If (3,4) and (5,12) are the foci of two conics both passing through origin, and the eccentricities of the conics are e_(1) and , e_(2) where e_(1)>e_(2) ,then (4e_(1))/(e_(2)) is equal to

If e and e_(1) , are the eccentricities of the hyperbolas xy=c^(2) and x^(2)-y^(2)=c^(2) , then e^(2)+e_(1)^(2) is equal to

If (e_(1),e_(2),e_(3)) and (e_(1)^(prime),e_(2)^(prime),e_(3)^(prime)) are two sets of non-coplanar vectors such that i=1,2,3we have e_(i)*e_(j)^( prime)={1, if i=j|0,quad if i!=j} then show that [e_(1)e_(2)e_(3)][e_(1)^(prime)e_(2)^(prime)e_(3)^(prime)]=1

If e_(1)=E_(1)sin(omega_(1)t-k_(1)x+phi_(1)) and e_(2)=E_(2)sin(omega_(2)t-k_(2)x+phi_(2)) and e=e_(1)+e_(2) then show that E^(2)=E_(1)^(2)+E_(2)^(2)+2E_(1)E_(2)cos(delta_(2)-delta_(1)) where delta_(1)=omega_(1)t-k_(1)x+phi_(1) and delta_(2)=omega_(2)t-k_(2)x+phi_(2)

If hat(e_1), hat(e_2) and hat(e_1)+hat(e_2) are unit vectors, then angle between hat(e_1) and hat(e_2) is

If E_(1) and E_(2) are two events associated with a random experiment such that P(E_(2))=0.35,P(E_(1) or E_(22))=0.85 and P(E_(1) and E_(2))=0.15 then P(E_(1)) is (A).25(B).35(C).65(D).75