Can you please expand on the difference between series and parallel on capacitors thank soooo much!! Thank you again for an awesome walkthrough massage !
It's the same concept as resistors in series vs. parallel it's just rather than talking about an impedance of electron flow (resistors), you're talking about reservoirs of charges (capacitors). Because of this, capacitors in parallel have the same voltage, but different charge stored. Capacitors in series have the same charge stored, but different voltages. And because C = Q/dV, you can therefore see the math working out to give you total capacitance in series is summative while you must use the inverse of the capacitance when dealing in series. If that doesn't make sense, replace all of the capacitances w/ Q/dV and use the rules I gave you in the second sentence. But for the MCAT the important part to know is the equations and the concept of what capacitance is (it stores charge so that if there's an interruption in electron flow--say your power goes out--then it can use its stored charged to keep your electronics functioning briefly until the current resumes. I hope this helps!
Hey Hasti! You can email us at ifdinquiry@gmail.com but I can’t guarantee how quickly we’ll respond bc we get a lot of emails and requests. But if you have any specific questions, I’m happy to answer them to the best of my ability here!
Thank you from bottom of my heart
Great analysis. Keep them coming.
Thanks, will do!
I like the short passage review
This was awesome helps so much!
I’m glad it helped!
Thank you so much for your videos !
I'm so glad they help!!
Can you please expand on the difference between series and parallel on capacitors thank soooo much!! Thank you again for an awesome walkthrough massage !
It's the same concept as resistors in series vs. parallel it's just rather than talking about an impedance of electron flow (resistors), you're talking about reservoirs of charges (capacitors). Because of this, capacitors in parallel have the same voltage, but different charge stored. Capacitors in series have the same charge stored, but different voltages. And because C = Q/dV, you can therefore see the math working out to give you total capacitance in series is summative while you must use the inverse of the capacitance when dealing in series. If that doesn't make sense, replace all of the capacitances w/ Q/dV and use the rules I gave you in the second sentence.
But for the MCAT the important part to know is the equations and the concept of what capacitance is (it stores charge so that if there's an interruption in electron flow--say your power goes out--then it can use its stored charged to keep your electronics functioning briefly until the current resumes.
I hope this helps!
@@InformingFutureDoctors The best explain I have ever seen :D!
Quick 🙋🏾♀️. Is there any way the answer could have been "c". What would an exponential relationship look like?
Is there any way I can contact you all? I have some specific questions regarding score improvement
Hey Hasti! You can email us at ifdinquiry@gmail.com but I can’t guarantee how quickly we’ll respond bc we get a lot of emails and requests. But if you have any specific questions, I’m happy to answer them to the best of my ability here!
this psg is really physicsy hahahha :P