GDPR and DSGVO law

Storing Cookies (See : http://ec.europa.eu/ipg/basics/legal/cookies/index_en.htm ) help us to bring you our services at overunity.com . If you use this website and our services you declare yourself okay with using cookies .More Infos here:
https://overunity.com/5553/privacy-policy/
If you do not agree with storing cookies, please LEAVE this website now. From the 25th of May 2018, every existing user has to accept the GDPR agreement at first login. If a user is unwilling to accept the GDPR, he should email us and request to erase his account. Many thanks for your understanding.
Amazon Warehouse Deals ! Now even more Deep Discounts ! Check out these great prices on slightly used or just opened once only items.I always buy my gadgets via these great Warehouse deals ! Highly recommended ! Many thanks for supporting OverUnity.com this way.

User Menu

Powerbox

Smartbox

3D Solar

3D Solar Panels

DC2DC converter

Micro JouleThief

FireMatch

FireMatch

CCKnife

CCKnife

CCTool

CCTool

Magpi Magazine

Magpi Magazine Free Rasberry Pi Magazine

Battery Recondition

Battery Recondition

Arduino

Ultracaps

YT Subscribe

Gravity Machines

Tesla-Ebook

Magnet Secrets

Lindemann Video

Navigation

Products

Products

WaterMotor kit

Statistics


  • *Total Posts: 497578
  • *Total Topics: 14727
  • *Online Today: 44
  • *Most Online: 103
(December 19, 2006, 11:27:19 PM)
  • *Users: 6
  • *Guests: 23
  • *Total: 29

Author Topic: MH's ideal coil and voltage question  (Read 238099 times)

Offline allcanadian

  • Hero Member
  • *****
  • Posts: 1317
Re: MH's ideal coil and voltage question
« Reply #15 on: May 08, 2016, 08:45:22 PM »
@Magneticists
Quote
seems a reasonable deduction that follows logic. welcome to the club of having no idea.


Logically, the fact that I expressed my idea here indicates I must have one and the presumption that just because my idea may not agree with yours that it's incorrect is false. However I have no indication that you have any idea which is why grown ups need to use "their words" and convey what they mean in an intelligent manner... such as technical debate on the issue at hand.


AC



Free Energy | searching for free energy and discussing free energy

Re: MH's ideal coil and voltage question
« Reply #15 on: May 08, 2016, 08:45:22 PM »

Offline poynt99

  • TPU-Elite
  • Hero Member
  • *******
  • Posts: 3556
Re: MH's ideal coil and voltage question
« Reply #16 on: May 08, 2016, 08:53:57 PM »
Brad,

Here are two small but significant hints:

1) brush up on what it means mathematically when any number is divided by 0 (don't assume you are correct, verify it).

2) MH's question is regarding what happens at t=0, i.e. the instant the Vsource is connected (MH, please confirm).

Offline Magneticitist

  • Full Member
  • ***
  • Posts: 131
Re: MH's ideal coil and voltage question
« Reply #17 on: May 08, 2016, 09:07:51 PM »
@Magneticists

Logically, the fact that I expressed my idea here indicates I must have one and the presumption that just because my idea may not agree with yours that it's incorrect is false. However I have no indication that you have any idea which is why grown ups need to use "their words" and convey what they mean in an intelligent manner... such as technical debate on the issue at hand.


AC

Well said

Free Energy | searching for free energy and discussing free energy

Re: MH's ideal coil and voltage question
« Reply #17 on: May 08, 2016, 09:07:51 PM »
Sponsored links:




Offline MileHigh

  • Hero Member
  • *****
  • Posts: 7617
Re: MH's ideal coil and voltage question
« Reply #18 on: May 08, 2016, 09:10:46 PM »
Poynt:

Here is the question again:

<<<
You have an ideal voltage source and an ideal coil of 5 Henrys.  At time t=0 seconds the coil connects to the ideal voltage source. For three seconds the voltage is 4 volts.  Then for the next two seconds the voltage is zero volts. Then for two seconds the voltage is negative three volts, and then for the next six seconds the voltage is 0.5 volts.  Then after that the voltage is zero volts.

What happens starting from t=0.
>>>

So the time frame is from 0 seconds to "beyond 13 seconds."

MileHigh

Offline Magneticitist

  • Full Member
  • ***
  • Posts: 131
Re: MH's ideal coil and voltage question
« Reply #19 on: May 08, 2016, 09:23:36 PM »
Brad,

Here are two small but significant hints:

1) brush up on what it means mathematically when any number is divided by 0 (don't assume you are correct, verify it).

2) MH's question is regarding what happens at t=0, i.e. the instant the Vsource is connected (MH, please confirm).


OK look I have to ask you out of genuine respect for this conversation.. How did you come to ask Brad those questions? In the beginning of this thread he stated:

"My answer to this question is--you cannot place an ideal voltage across an ideal inductor.
The reason being,at T=0,when the ideal voltage is placed across the ideal inductor,the current would rise instantly to a value of infinity."

with his own words he said he understands that MH's T=0 was in reference to the initial connection of the vsource.

the issue is an ideal source being placed across 0 resistance. whether it's a coil or straight wire doesn't really matter in this context.



to answer the question of what happens the very instant the ideal vsource is connected to the ideal coil?
T=0  THE VOLTAGE CONNECTS TO THE COIL, THAT'S WHAT HAPPENS.

Free Energy | searching for free energy and discussing free energy

Re: MH's ideal coil and voltage question
« Reply #19 on: May 08, 2016, 09:23:36 PM »
Sponsored links:




Offline MileHigh

  • Hero Member
  • *****
  • Posts: 7617
Re: MH's ideal coil and voltage question
« Reply #20 on: May 08, 2016, 09:36:12 PM »

Offline poynt99

  • TPU-Elite
  • Hero Member
  • *******
  • Posts: 3556
Re: MH's ideal coil and voltage question
« Reply #21 on: May 08, 2016, 10:13:46 PM »
Thanks MH for correcting me.

Although the question involves t=0 to t=13s, knowing what happens right at t=0 (the moment Vsource connects the inductor) is important.

It's also important to know what results when a number is divided by 0.

Let's see if examining this causes Brad to come to a different answer.

Free Energy | searching for free energy and discussing free energy

Re: MH's ideal coil and voltage question
« Reply #21 on: May 08, 2016, 10:13:46 PM »
Sponsored links:




Offline Didymus

  • Newbie
  • *
  • Posts: 1
Re: MH's ideal coil and voltage question
« Reply #22 on: May 08, 2016, 11:33:56 PM »
Somebody has to go back to basics, it might as well be me.

The definition of an ideal inductor is a two-terminal device that obeys the current/voltage relationship:

V = L dI/dt  where V is the applied voltage, L is the inductance in Henries and dI/dt is the rate of change of the current with time.  The impedance of the voltage source and the resistance of the inductor are both assumed to be zero.

This definition can be rewritten as dI.dt = V/L.  Given an initial current of zero, applying 4 V to a 5 H inductor leads to a current through the inductor that increases at 0.8 amps per second.  After three seconds the current will be 2.4 amps.  If the supply is not turned off the current will increase indefinitely at 0.8 A/second.  There are no time constants involved.

For completeness, a capacitor is a two-terminal device the current through which is given by the equation:
I = C dV/dt where C is the capacitance in Farads.  The current through the capacitor is proportion to the rate of change in the applied voltage times the capacitance.  In this case applying a fixed current results in a voltage across the capacitor that increases indefinitely.

Offline Pirate88179

  • elite_member
  • Hero Member
  • ******
  • Posts: 8361
Re: MH's ideal coil and voltage question
« Reply #23 on: May 08, 2016, 11:55:08 PM »
Thanks MH for correcting me.

Although the question involves t=0 to t=13s, knowing what happens right at t=0 (the moment Vsource connects the inductor) is important.

It's also important to know what results when a number is divided by 0.

Let's see if examining this causes Brad to come to a different answer.

I just googled a few math sites and they all said that you can not divide any number by 0.  It is impossible and incorrect to do so.

So, now my question is...why is that?  One site said that you would get infinity by doing this which is why you can't do this.  Gee, and I thought I understood simple math, ha ha.

The intuitive answer, at least for me, would have been that division means breaking something into a certain number of equal parts and if there are no divisions into equal parts, then you are left with the original amount undivided.  But, this fails the multiplication test when you multiply the answer to double check it....

10 divided by 0 = 10.  Then 10 times 0 should equal 10, and of course it does not.  So, 10 divided by 0 either equals infinity, 0 or, it is undefined.  Some say it can't be done.  All of this depends upon which math sites you want to believe.

Bill

Free Energy | searching for free energy and discussing free energy

Re: MH's ideal coil and voltage question
« Reply #23 on: May 08, 2016, 11:55:08 PM »
3D Solar Panels

Offline Magluvin

  • Hero Member
  • *****
  • Posts: 5738
Re: MH's ideal coil and voltage question
« Reply #24 on: May 09, 2016, 12:09:12 AM »
In an ideal voltage source the source Emf would be fixed and an ideal inductor would have virtually no losses. It seems to me no current could flow because the moment a charge tried to moved due to the ideal voltage source Emf the ideal inductor would produce an equal and opposite Cemf to oppose it. Ideally if the source Emf is always instantaneously opposed by the inductors Cemf then nothing can move, a stalemate.


AC

Lol. I said that a few times on this site. Just did yesterday. ;) ;)

Like are we taking about an ideal inductor that has no magnetic fields?  Like I said yesterday, it could be just the field charge before the ideal switch connects that could set up an ideal BEMF standoff and no current would ever flow, inductor or even a straight wire   Im glad someone here is on the same level of thinking as I am on this. ;) ;)   

Mags

Offline Magluvin

  • Hero Member
  • *****
  • Posts: 5738
Re: MH's ideal coil and voltage question
« Reply #25 on: May 09, 2016, 12:17:49 AM »
I just googled a few math sites and they all said that you can not divide any number by 0.  It is impossible and incorrect to do so.

So, now my question is...why is that?  One site said that you would get infinity by doing this which is why you can't do this.  Gee, and I thought I understood simple math, ha ha.

The intuitive answer, at least for me, would have been that division means breaking something into a certain number of equal parts and if there are no divisions into equal parts, then you are left with the original amount undivided.  But, this fails the multiplication test when you multiply the answer to double check it....

10 divided by 0 = 10.  Then 10 times 0 should equal 10, and of course it does not.  So, 10 divided by 0 either equals infinity, 0 or, it is undefined.  Some say it can't be done.  All of this depends upon which math sites you want to believe.

Bill

Maybe we wouldnt have to worry with the 0 value for resistance, where it may be replaced by a time of electron travel over a distance. Can an electron move faster than the speed of light? Is the speed of light infinity or instantaineous?  So there would still be a time thing to work with as I dont think T=0 can even exist. It means no time, nothing happened because that time didnt exist.  ;)

Mags

Free Energy | searching for free energy and discussing free energy

Re: MH's ideal coil and voltage question
« Reply #25 on: May 09, 2016, 12:17:49 AM »
3D Solar Panels

Offline tinman

  • Hero Member
  • *****
  • Posts: 5008
Re: MH's ideal coil and voltage question
« Reply #26 on: May 09, 2016, 01:38:38 AM »
Thanks MH for correcting me.

Although the question involves t=0 to t=13s, knowing what happens right at t=0 (the moment Vsource connects the inductor) is important.

It's also important to know what results when a number is divided by 0.

Let's see if examining this causes Brad to come to a different answer.

When you divide one number !x! by another number !y!,it is asking you to work out how many !y's! will fit into !x!,so how many 0's in 10?.
So to work out the L/R time constant,when the value of R is 0,then the answer is infinity,and so inductance in this case with the inductor being ideal, dose not play a part in current rise time. That being the case,you are placing an ideal voltage across a perfect dead short.

All L/R time constants are based around the ideal inductor where the resistance value is added in series with the inductor ,by way of a resistor that is external to the inductor. As the current rises,the voltage across the inductor drop's until it reaches a value of 0 volts. The problem here is that we have an ideal voltage that dose not drop,and there for the current will continue to rise to an infinite amount. If we remove the series resistor from our ideal inductor,we have a dead short due to the L/R time constant being infinite,and playing no part in current rise time.

Like MH said--there is !no! time constant,as it is infinite.
And so we now have an ideal voltage-->a voltage that will not change,being placed across a short that will not allow a voltage potential to exist across it.

So i stand by my answer-->you cannot place an ideal voltage across an ideal inductor.
If you did(theoretically),the current would rise instantly to an infinite value.


Brad

Offline poynt99

  • TPU-Elite
  • Hero Member
  • *******
  • Posts: 3556
Re: MH's ideal coil and voltage question
« Reply #27 on: May 09, 2016, 02:28:13 AM »
When you divide one number !x! by another number !y!,it is asking you to work out how many !y's! will fit into !x!,so how many 0's in 10?.
So to work out the L/R time constant,when the value of R is 0,then the answer is infinity,and so inductance in this case with the inductor being ideal, dose not play a part in current rise time. That being the case,you are placing an ideal voltage across a perfect dead short.

All L/R time constants are based around the ideal inductor where the resistance value is added in series with the inductor ,by way of a resistor that is external to the inductor. As the current rises,the voltage across the inductor drop's until it reaches a value of 0 volts. The problem here is that we have an ideal voltage that dose not drop,and there for the current will continue to rise to an infinite amount. If we remove the series resistor from our ideal inductor,we have a dead short due to the L/R time constant being infinite,and playing no part in current rise time.

Like MH said--there is !no! time constant,as it is infinite.
And so we now have an ideal voltage-->a voltage that will not change,being placed across a short that will not allow a voltage potential to exist across it.

So i stand by my answer-->you cannot place an ideal voltage across an ideal inductor.
If you did(theoretically),the current would rise instantly to an infinite value.


Brad
You may wish to exercise a few examples to see if your conclusion is correct. Your conclusion being that if the time constant (Tau) is infinite, the load immediately presents itself as a perfect short, meaning the current will be infinite and instantaneous.

Here are a few: (in all cases, L=6H)

1) R=1, Tau=6s
2) R=0.1, Tau=60s (1min)
3) R=1m Ohm, Tau=60ks (16.6 hours)
4) R=1u Ohm, Tau=6M(million)s (1667 hours)
5) etc.

What is happening to Tau as R decreases?
If R could be 0, Tau must be infinite.
What happens to the inductor current after t=0 when Tau=infinity?

Offline Magneticitist

  • Full Member
  • ***
  • Posts: 131
Re: MH's ideal coil and voltage question
« Reply #28 on: May 09, 2016, 02:35:52 AM »
then we have the extra confusing idea that whether a real coil or ideal coil, at T=0 the current is at absolute 0 because there is absolutely no resistance to yield a voltage drop, it's at a maximum across the coil. there is absolutely no current flow to yield a magnetic field, because the magnetic field that will not be created without current is opposing the current flow. hmm.

a superconductive coil will yield no external field because it perfectly contains it within the conductor resisting current change, perfectly. with absolute 0 resistance we are approaching an infinite magnetic field force and thus an infinite reactance. since infinity cannot overpower infinity, they simply cancel each other out in practice.

resistance is the factor that prevents a conductor from perfectly resisting an exterior magnetic field because its the factor that resists current.. with 0 resistance there is perfect opposition like a super cooled conductor opposing a magnet. in essence, can't an absolute 0 resistance in a conductor/inductor be considered both a dead short AND open circuit at the same time?

Offline Magluvin

  • Hero Member
  • *****
  • Posts: 5738
Re: MH's ideal coil and voltage question
« Reply #29 on: May 09, 2016, 02:40:11 AM »
then we have the extra confusing idea that whether a real coil or ideal coil, at T=0 the current is at absolute 0 because there is absolutely no resistance to yield a voltage drop, it's at a maximum across the coil. there is absolutely no current flow to yield a magnetic field, because the magnetic field that will not be created without current is opposing the current flow. hmm.

a superconductive coil will yield no external field because it perfectly contains it within the conductor resisting current change, perfectly. with absolute 0 resistance we are approaching an infinite magnetic field force and thus an infinite reactance. since infinity cannot overpower infinity, they simply cancel each other out in practice.

resistance is the factor that prevents a conductor from perfectly resisting an exterior magnetic field because its the factor that resists current.. with 0 resistance there is perfect opposition like a super cooled conductor opposing a magnet. in essence, can't an absolute 0 resistance in a conductor/inductor be considered both a dead short AND open circuit at the same time?

There ya go. ;) Resistance is a necessity for current to flow. ;D Lol  ;D

Mags

 

OneLink