Thank you so much 😊

Hello. Thank you very much ☺️🙏🏻 Making a video takes a lot of time. Unfortunately, I can't produce more content 😔

Thank you so much 🙏

Thank you so much. I'm glad you liked the video. My preference is to use the effective value in your 1st question. You can also do it over the maximum value if you want. Unfortunately, I couldn't understand your second question. I'm sorry.

old question, but since it didn't get a reply: Yes, arguably THE most important concept in op amps is that there is a "virtual short circuit" between the inverting and non-inverting inputs when the amp is being operated with feedback. There is no current flowing between the inputs, they are just kept at the same voltage by currents flowing in the external circuit.The feedback makes the voltage at the inverting input equal to the voltage at the non-inverting input. That is, the non-inverting input "sets the voltage" for both inputs. There will be some very small difference in voltage between the inputs, but for lots of circuits the difference can be ignored. The other very important thing to remember is that the current into or out of the inputs of the amplifier itself are extremely small. Like the voltage difference between the inputs, these tiny currents can be pretty much ignored for lots of applications, though in some circuits they must be considered and can actually be quite a big issue. In the video, both inputs will be +2 V - the NII made that way directly and the II via the feedback/gain network. If the II is at +2 V, then the current through R1 must be 2 mA by Ohm's Law, flowing from right to left (using "conventional current" which is considered to flow from positive to negative). Since no current goes into or out of the actual input pin, that 2 mA _must_ be coming via the feedback resistor and it must be flowing in the same direction. 2 mA through 4.7 k gives a voltage of 9.4 volts. The II voltage we know will be +2 V, so the output voltage must be (+2 + +9.4) = +11.4 volts. Of course there can be situations where the op amp just can't do what is asked of if. If just a bit more gain were required in the circuit in the video, or the voltage at the NII were just a bit higher, the amp wouldn't be able to do the job because its output voltage would have to be higher than its positive supply voltage. The voltage at the non-inverting input couldn't be driven high enough to match the voltage at the NII. In fact lots of op amps wouldn't even be able to get to 11.4 volts with a +12 volt positive supply.

Hello. While there is a positive-negative change in DC, it happens in the form of a 180-degrees phase shift in AC.

Scary ...

RECTIFIER CIRCUIT (USING DIODE)

I'm so glad you think so. Thank you very much ☺️🙏🏻