One, and two, respectively.
Yes - the rectangle has two pairs of sides that are parallel respectively one to the other in each pair.
If you mean 12x+3y = -9 and -8x-2y = 14 then they are y = -4x-3 and y = -4x-7 respectively which means that they are parallel lines because they both have the same slope of -4 but with different y intercepts
If you mean "triangle", a triangle can never have two parallel sides.If you mean "triangle", a triangle can never have two parallel sides.If you mean "triangle", a triangle can never have two parallel sides.If you mean "triangle", a triangle can never have two parallel sides.
it is basically a face that is parallel
One, and two, respectively.
Yes - the rectangle has two pairs of sides that are parallel respectively one to the other in each pair.
If you mean 12x+3y = -9 and -8x-2y = 14 then they are y = -4x-3 and y = -4x-7 respectively which means that they are parallel lines because they both have the same slope of -4 but with different y intercepts
If you mean "triangle", a triangle can never have two parallel sides.If you mean "triangle", a triangle can never have two parallel sides.If you mean "triangle", a triangle can never have two parallel sides.If you mean "triangle", a triangle can never have two parallel sides.
Parallel to the Olympics.
it is basically a face that is parallel
The answer will depend on whether you mean parallel edges or parallel faces.
I'm not sure of what you mean by "parallel of the word" in this question.
Capacitors are said to be connected together "in parallel" when both of their terminals are respectively connected to each terminal of the other capacitor or capacitors. The voltage (Vc ) connected across all the capacitors that are connected in parallel is THE SAME. Then,Capacitors in Parallel have a "common voltage" supply across them giving: VC1 = VC2 = VC3 = VAB = 12V
In this case current flows from a high voltage to a lower voltage in a circuit.
Inside of, and outside of, respectively.
parallel