On a road you will find parallel turn there is 2 ways of exiting a junction
no
Yes!
You can use the coffee machine, and not have to turn on the entire house because the whole house is not controlled by one series circuit.
Do you mean "Why might a parallel line algorithm be needed?" or "What properties does a parallel line algorithm need to have?".
The center of the turn is called an apex.
A Christie Turn is a combination of a Stem Turn and a Parallel Turn. You start with your skis parallel, skiing downhill, or traversing across the hill. When you want to turn, you put your upper ski into a V position, with the front of your skis pointing together. You will now be 'Snow Plowing'. Once your in this position, you can adjust your weight to inside edge of the outside ski, causing you to start rotating down the hill on that ski. Once you are nearing the desired end of your turn, you slide, or lift, your other ski, so you are standing parallel again. This is repeated, and practiced, until the skiier has learned a full Parallel Turn.
It might be because they have nothing else to turn to, or they feel that drugs make them feel good on the inside.
No, they do not. Think of it this way. Your house is one huge parallel circuit. Not every branch is on all the time. You turn switches on and off to turn individual branches on and off at will.
In a science lab.
If it is curving, it's not a line.
make sure front wheels are straight when you turn car off you might have to turn wheel as hard as you can to left and turn ignition key
Well a nonagon is a nine sided polygon. If you make the lines or sides parallel, then you will have a parallel figure. Or some parallel lines on a figure (polygon). If you choose to make your polygon (nonagon) have a pair of congruent sides, then your polygon will have some congruent sides. Therefore it really matters what your shape looks like. For example, a quadrilateral can be a square or a kite (or many others but I'm just using these) a kite might have no parallel lines and a square may have 2 sets of parallel lines. Do you get it? Does that answer your question? FYI: A nonagon is also known as a enneagon :)