Its a transformation called translation. Hope this helps :)
It would be left unchanged.
They would 'intersect'. ('cross', have one point in common)
Otherwise nobody would know what was meant by parallel lines!
If they are not parallel and do not intersect then they would not be in the same plane (not possible), but they would be called skew lines.
Its a transformation called translation. Hope this helps :)
No. In order to be parallel, two lines would have to have the same slope, and different intercepts.Why? Two lines with different slopes, but the same intercepts would result in two intersecting lines. Two lines with the same slope, and the same intercept would result in the same line. Two lines with the same slope, and different intercepts would be parallel.
If you refer to linear equations, graphed as straight lines, two inconsistent equations would result in two parallel lines.
result depends on the user it can be best if user is good in that work and it can also be worst
No, series parallel, as it implies has components of the circuit configured in both series and parallel. This is typically done to achieve a desired resistance in the circuit. A parallel circuit is a circuit that only has the components hooked in parallel, which would result in a lower total resistance in the circuit than if the components were hooked up in a series parallel configuration.
the transformation of a butterfly is interesting
A rigid transformation means it has the same size and shape so it would be a dilation
You would use a mental image if you were daydreaming or if you were experiencing something that your mind would not accept (Something disturbing, unbelievable, etc.). You could also use a mental image when you are trying to remember something or picture the result of an action or possibility.
OVER EXPOSURE - too bright, the image would result to being whiter than normal. UNDER EXPOSURE - too dark, the image would likely to appear black
If they were not actually parallel then they would not be parallel lines!
Since the total capacitance for capacitors in parallel is the sum of the individual capacitances. I'm sure that you can work it out for yourself!
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