The degree of the differential equation 1 + dydx22 = d2ydx2 is
3
2
1
4
∫cos2x - cos2θcosx - cosθdx is equal to
2sinx + xcosθ
2sinx - xcosθ
2sinx + 2xcosθ
2sinx - 2xcosθ
If a = 2i^ + λj^ + k^ and b = i^ + 2j^ + 3k^ are orthogonal, then value of λ is
3/2
0
- 5/2
If a, b, c are unit vectors such that a + b + c = 0, then the value of a · b + b · c + c · a is equal to
- 3/2
D.
We have, a, b, c are unit vectors∴ a = b = c = 1Also, we have a + b + c = 0∴ a . a + b + c = a . 0⇒ a . a + a . b + a . c = 0⇒ a2 + a . b + a . c = 0⇒ a . b + a . c = - a2 = - 1 ...iSimilarly,b . a + b . c = - 1 ...iiand c . a + c . b = 1 ...iiiOn adding Eqs (i), (ii) and (iii), we get 2a . b + b . c + c . a = - 3⇒ a . b + b . c + c . a = - 32
The plane 2x - 3y + 6z - 11 = 0 makes an angle sin-1(α) with X-axis, the value of α is equal to
23
27
32
37
∫0.23.5xdx is equal to
3.5
4.5
The perpendicular distance of the point P(6, 7, 8) from XY-plane is
6
7
5
8
The integrating factor of the differential equation x . dydx + 2y = x2 is x ≠ 0
x
logx
x2
elogx
∫0π2tan7xcot7x + tan7xdx is equal to
π4
π2
π6
π3
Reflexion of the point α, β, γ in XY-plane is
0, 0, γ
- α, - β, γ
α, β, - γ
α, β, 0