(8+6i)-(2+3i)=6+3i 8+6i-2+3i=6+9i
Square root of 25 = +or- 5 Square root of -36 = +or- 6i where i is the imaginary number such that i^2=-1 Square root of 121 = +or-11 So the 8 possible answers are: -16-6i, -16+6i, -6-6i, -6+6i, 6-6i, 6+6i, 16-6i and 16+6i
negative 15 is the answer
-12i(3-6i) = -36i + 72i² = -36i + 72 × -1 = -36i - 72 = -72 - 36i = -36(2 + i)
10 + 6i and 7 + 2i = 10 + 6i + 7 + 2i = 17 + 8i
7
(8+6i)-(2+3i)=6+3i 8+6i-2+3i=6+9i
Square root of 25 = +or- 5 Square root of -36 = +or- 6i where i is the imaginary number such that i^2=-1 Square root of 121 = +or-11 So the 8 possible answers are: -16-6i, -16+6i, -6-6i, -6+6i, 6-6i, 6+6i, 16-6i and 16+6i
564
Oh, dude, the complex conjugate of 8 + 6i is just flipping the sign of the imaginary part, so it's 8 - 6i. It's like changing your mood from happy to grumpy, but in the world of math. So yeah, that's the deal with complex conjugates.
[Young's Modulus] = M1L-1T-2 __> this is the dimensional formula
A complex number is x+iy and -6i is 0-6i or 0-i6 I would then answer yes.
negative 15 is the answer
|2| = y is valid, but the use of modulus is pointless in this equation, since |2| = +2. The equation, therefore, is y = 2 If, instead, the equation were 2 = |y|, then you would have y = -2 or +2.
-12i(3-6i) = -36i + 72i² = -36i + 72 × -1 = -36i - 72 = -72 - 36i = -36(2 + i)
1. Young's modulus of elasticity, E, also called elastic modulus in tension 2. Flexural modulus, usually the same as the elastic modulus for uniform isotropic materials 3. Shear modulus, also known as modulus of rigidity, G ; G = E/2/(1 + u) for isotropic materials, where u = poisson ratio 4. Dynamic modulus 5. Storage modulus 6. Bulk modulus The first three are most commonly used; the last three are for more specialized use
[Young's Modulus] = M1L-1T-2 __> this is the dimensional formula