False
hey hopefully this is for jainkos ~ hahahah. This is from my general knowledge and some bits from the text...It would work but its not practical. too much current would be used and wasted. The efficency would be very low.
in the USA if following the NEC there is no specific requirement for wall switch heights for general lighting There may be requirements for machinery
particular to general
General Electric Capital Retail Bank
Impedance "Z" is measured in Ohms, same as resistance. The only difference is that this form of resistance is frequency dependent where induction or capacitances are involved. Z = sqr(R2+X2) and in its complex from Z = R +jX where j = sqr(-1). The classical apparent power (V x I) will not apply as well as it apply in DC circuits. It would rather be in the form of P = Power Factor x V x I where Power Factor is PF= cos (angle) and angle = tan-1(X/R) since there is a phase shift between voltage and current due to the reactance (X) of the load, for inductive reactance the current lag, for capacitive reactances the current lead. I only use X as a general form of reactance, but normally reactance will either be: XL = 2 x Pi x f x L for inductive components or Xc = 1 / (2 x Pi x f x C) for capacitive components X, XL or Xc is also in ohms Impedance is Z and measured in Ohms and the same series - parallel laws apply as with resistances. When do you need to worry about impedance? when you work with alternating currents and not DC. When there are possible induction or capacitance involved which is the case most of the time.
False
False. It works the other way. Induction is what you use to obtain a general rule, based upon a collection of specific answers or observations.
False. It works the other way. Induction is what you use to obtain a general rule, based upon a collection of specific answers or observations.
False. It works the other way. Induction is what you use to obtain a general rule, based upon a collection of specific answers or observations.
inference of a general pattern from specific instances.
False
In induction, you observe a specific pattern or trend in a set of data or observations, and then infer a general rule or hypothesis that explains that pattern. This process involves moving from specific instances to a more general conclusion.
Induction is a logical process where reasoning moves from specific observations to general principles. It involves drawing conclusions based on patterns or trends observed in specific instances.
Yes
In research, deduction involves reasoning from general principles to specific conclusions, while induction involves drawing general conclusions from specific observations. Both deduction and induction are important in developing hypotheses, testing theories, and advancing scientific knowledge through logic and evidence.
general to specific
true