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Author Topic: VCE Physics Question Thread!  (Read 603192 times)  Share 

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lzxnl

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Re: VCE Physics Question Thread!
« Reply #990 on: May 10, 2015, 10:04:31 pm »
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What does it mean to have a negative voltage? Is it only when you have a photodiode or something in reverse bias and hence a negative current?

Firstly, what is a voltage?
A voltage is a potential difference between two points. Well that doesn't help, does it?
The electric potential is defined as the electric potential energy per unit charge. So you know how things like to go from high to low potential energy? For a positive charge, this means go from high to low potential but for a negative charge, it means it'll want to go from low to high potential.

So a negative potential just means you've measured a positive potential in the other way. This has implications for devices that are direction-specific, like diodes.
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odeaa

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Re: VCE Physics Question Thread!
« Reply #991 on: May 10, 2015, 10:05:32 pm »
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Firstly, what is a voltage?
A voltage is a potential difference between two points. Well that doesn't help, does it?
The electric potential is defined as the electric potential energy per unit charge. So you know how things like to go from high to low potential energy? For a positive charge, this means go from high to low potential but for a negative charge, it means it'll want to go from low to high potential.

So a negative potential just means you've measured a positive potential in the other way. This has implications for devices that are direction-specific, like diodes.
Legend, thanks for clearing that up
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Floatzel98

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Re: VCE Physics Question Thread!
« Reply #992 on: May 13, 2015, 09:19:50 pm »
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Hey guys. I have a couple questions today about Voltage RMS.

I have a physics SAC tomorrow on the first half of the Electronics and Photonics Area of Study and my teacher said today that there would be a question about Voltage RMS on it, even though we haven't actually come across it in the book yet. He explained it to us and basically told us that the question was just reading the peak AC current and finding the RMS Voltage, which is easy enough. I understand the formula and how to use it for the question we will get, but i still don't understand how they get it. In the Heinemann textbook it comes up in the further electronics AOS and quickly in Electric Power AOS, but I still wasn't able to understand it.

So basically my questions are:

Where/how do they derive it?
What is it? I gathered it was like the average voltage provided by an AC signal. I also read that it is the same the DC voltage for something? What is the relationship between them?
How does the current RMS work? Where do you ever find the peak current? Are there usually graphs of these or is it something you can solve after finding the voltage RMS?

Also i have some questions about AC and DC signals that i don't think i ever really understood, and because we are finally using them a lot more now i think my knowledge isn't really matching up with what i'm learning. And some other random questions if anybody can be bothered answering them

What actually happens in an AC supplied circuit. If it was connected to a light, does that constantly turn off and on?
What does a resistor actually do to the electrons in a circuit? Does it slow them down so less can pass through or..?
In a normal DC circuit for example, do the same amount of electrons keep running the circuit or do they just get replaced each time they finish it? Also, how do they get the electrons in the first place?
What are some different uses for AC and DC current? Like which one is usually used in our lights at home etc..?
How do you actually make an alternating current? Are magnets used to do this or something else?

Some of these might have simple answers that i probably already know. I feel like I've been trying to think to deep into some of these things and I keep confusing myself and throwing what i already know out the door. The first part is what i need help with now anyway, so if anybody can help with anything at all that would be much appreciated.

Thanks! :)


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Kel9901

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Re: VCE Physics Question Thread!
« Reply #993 on: May 13, 2015, 10:27:12 pm »
+1
Hey guys. I have a couple questions today about Voltage RMS.

I have a physics SAC tomorrow on the first half of the Electronics and Photonics Area of Study and my teacher said today that there would be a question about Voltage RMS on it, even though we haven't actually come across it in the book yet. He explained it to us and basically told us that the question was just reading the peak AC current and finding the RMS Voltage, which is easy enough. I understand the formula and how to use it for the question we will get, but i still don't understand how they get it. In the Heinemann textbook it comes up in the further electronics AOS and quickly in Electric Power AOS, but I still wasn't able to understand it.

So basically my questions are:

Where/how do they derive it?
What is it? I gathered it was like the average voltage provided by an AC signal. I also read that it is the same the DC voltage for something? What is the relationship between them?
How does the current RMS work? Where do you ever find the peak current? Are there usually graphs of these or is it something you can solve after finding the voltage RMS?

Also i have some questions about AC and DC signals that i don't think i ever really understood, and because we are finally using them a lot more now i think my knowledge isn't really matching up with what i'm learning. And some other random questions if anybody can be bothered answering them

What actually happens in an AC supplied circuit. If it was connected to a light, does that constantly turn off and on?
What does a resistor actually do to the electrons in a circuit? Does it slow them down so less can pass through or..?
In a normal DC circuit for example, do the same amount of electrons keep running the circuit or do they just get replaced each time they finish it? Also, how do they get the electrons in the first place?
What are some different uses for AC and DC current? Like which one is usually used in our lights at home etc..?
How do you actually make an alternating current? Are magnets used to do this or something else?

Some of these might have simple answers that i probably already know. I feel like I've been trying to think to deep into some of these things and I keep confusing myself and throwing what i already know out the door. The first part is what i need help with now anyway, so if anybody can help with anything at all that would be much appreciated.

Thanks! :)

i'll just answer the first part.

Try to think about it this way.
In AC, both voltage and current have a sinusoidal shape. When multiplied together to give power, it will be a graph that looks something like (sin(x))^2, ie something like this http://imgur.com/lMxj3Hf. It's pretty visually obvious that the 'average' power is half the 'peak' (top) power.

Hence, P(RMS)=P(peak)/2
V(RMS)I(RMS)=V(peak)I(peak)/2=(V(peak)/sqrt(2))(I(peak)/sqrt(2)
V(RMS)=V(peak)/sqrt(2), and I(RMS)=I(peak)/sqrt(2).

The RMS voltage of an AC signal represents the DC voltage that would provide the same average power.

current is pretty much treated the same way a voltage.
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Floatzel98

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Re: VCE Physics Question Thread!
« Reply #994 on: May 13, 2015, 10:44:49 pm »
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i'll just answer the first part.

Try to think about it this way.
In AC, both voltage and current have a sinusoidal shape. When multiplied together to give power, it will be a graph that looks something like (sin(x))^2, ie something like this http://imgur.com/lMxj3Hf. It's pretty visually obvious that the 'average' power is half the 'peak' (top) power.

Hence, P(RMS)=P(peak)/2
V(RMS)I(RMS)=V(peak)I(peak)/2=(V(peak)/sqrt(2))(I(peak)/sqrt(2)
V(RMS)=V(peak)/sqrt(2), and I(RMS)=I(peak)/sqrt(2).

The RMS voltage of an AC signal represents the DC voltage that would provide the same average power.

current is pretty much treated the same way a voltage.
Okay, the explanation makes a lot more sense, but I'm a bit confused as to where the root2 came from though. Maybe it's just the formatting that's confusing me. Can you explain those steps? Other wise thanks, it all makes a lot more sense now :)
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Kel9901

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Re: VCE Physics Question Thread!
« Reply #995 on: May 14, 2015, 12:46:01 pm »
+1
Okay, the explanation makes a lot more sense, but I'm a bit confused as to where the root2 came from though. Maybe it's just the formatting that's confusing me. Can you explain those steps? Other wise thanks, it all makes a lot more sense now :)

If the RMS power is half the peak power, then the RMS voltage x the RMS current will be 1/2 the peak voltage x the peak current. This half is 'split' equally between the voltage and the current as 1/sqrt(2) each, because 1/sqrt(2) x 1/sqrt(2)=1/2
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Peanut Butter

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Re: VCE Physics Question Thread!
« Reply #996 on: May 17, 2015, 04:26:15 pm »
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Can someone please help me with the electricity question attached?

Thanks :)

Floatzel98

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Re: VCE Physics Question Thread!
« Reply #997 on: May 17, 2015, 05:08:53 pm »
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Can someone please help me with the electricity question attached?

Thanks :)
For the first one, all we need to do is go find the voltage across the 6000 ohm resistor done by V = IR. Voltage is constant in parallel and there are no other components in the circuit, so that equals the EMF of the battery.

Since voltage is the same in parallel, we can work out the current in the other resistor by going I = V/R. Use the voltage you just calculated and the resistance provided. If you wanted to check if this is right, you could find the total parallel resistance by going and divide the total voltage by that. The two currents should add up to that individually.

With the break in the wire, nothing will flow through there. Every should just go through the 6000 ohm resistor, basically putting it in series with the battery. You should be able to work out the current of a single resistor given the total voltage and the resistance.

For the last question (and i might be wrong on this) you can think of it as putting a voltmeter across the 6000 ohm resistor in the same series scenario. X1 is on before the resistor and x2 is after it. I don't think 4000 ohm resistor will change that, but it might. If we think of it as just being in series that is right, but if we are literally testing from point x1 to x2, you would still have the 4000 ohm resistor in the way. But no current is flowing through it anyway, so it shouldn't matter.
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Kel9901

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Re: VCE Physics Question Thread!
« Reply #998 on: May 18, 2015, 10:37:18 am »
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What actually happens in an AC supplied circuit. If it was connected to a light, does that constantly turn off and on?
No, the frequency (how quickly the current goes up and down) is so high that humans don't notice it; it appears to stay at constant intensity
What does a resistor actually do to the electrons in a circuit? Does it slow them down so less can pass through or..?
Pretty much slows them down, yeah. The resistor pretty much makes the electrons give up some energy (potential) to get past it.
In a normal DC circuit for example, do the same amount of electrons keep running the circuit or do they just get replaced each time they finish it? Also, how do they get the electrons in the first place?
The same electrons run the circuit, and are 'recharged' or given back the potential they lost when going through the resistors when they reach the battery. The electrons come from the wires/resistors, as they are usually metal and hence have free moving electrons.
What are some different uses for AC and DC current? Like which one is usually used in our lights at home etc..?
I think pretty much everything uses AC. The main exception I can think of, aside from lab experiments (lol), is trains, which use DC power.
How do you actually make an alternating current? Are magnets used to do this or something else?
You'll learn this in unit 4, but yeah, magnets.
Some of these might have simple answers that i probably already know. I feel like I've been trying to think to deep into some of these things and I keep confusing myself and throwing what i already know out the door. The first part is what i need help with now anyway, so if anybody can help with anything at all that would be much appreciated.

Thanks! :)
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Floatzel98

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Re: VCE Physics Question Thread!
« Reply #999 on: May 18, 2015, 03:26:26 pm »
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Re: VCE Physics Question Thread!
« Reply #1000 on: May 18, 2015, 06:02:59 pm »
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What's the best way to revise for a mid-year exam? Practice exams only?

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Re: VCE Physics Question Thread!
« Reply #1001 on: May 18, 2015, 06:43:25 pm »
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What's the best way to revise for a mid-year exam? Practice exams only?

Yolo, whats revision for practice exams?! Haha,
Yeah, thats what ill be doing! Smashing dem out. If i can find them. Do you know any sources that has a bunch of them?

odeaa

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Re: VCE Physics Question Thread!
« Reply #1002 on: May 18, 2015, 07:34:29 pm »
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Yolo, whats revision for practice exams?! Haha,
Yeah, thats what ill be doing! Smashing dem out. If i can find them. Do you know any sources that has a bunch of them?
our teacher gave us a USB with all the VCAA exams back to 1997, ask your library I think they will have  a CD with all the past exams
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Floatzel98

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Re: VCE Physics Question Thread!
« Reply #1003 on: May 19, 2015, 04:07:36 pm »
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Can someone help explain photodiodes to me. I'm still kind of confused how they work and especially how the I-V characteristic graph works. I'm not really interpreting it properly. If they are placed in reverse bias, how do they even work? I think i'm a bit confused about the "dark current" and how it is negative. Also, what is the photoconductive mode and the photovoltaic mode?

Thanks!

EDIT: Whoops i had another question as well (now attached). I don't exactly understand how they got that equation for part b, the number of photons part. Is this something we should know as well. Because i have never really come across anything like it where we introduce something into an equation like that.
« Last Edit: May 19, 2015, 04:17:16 pm by Floatzel98 »
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Re: VCE Physics Question Thread!
« Reply #1004 on: May 19, 2015, 04:17:51 pm »
+1
Can someone help explain photodiodes to me. I'm still kind of confused how they work and especially how the I-V characteristic graph works. I'm not really interpreting it properly. If they are placed in reverse bias, how do they even work? I think i'm a bit confused about the "dark current" and how it is negative. Also, what is the photoconductive mode and the photovoltaic mode?

Thanks!

quick and dirty answer because i gotta run, but basically you place the photodiode in reverse bias and when light lands on it it lets a little trickle of current through (negative w.r.t. photodiode, but since the diode is reversed this is positive w.r.t. circuit as in, it's in the same direction as the voltage drop across the photodiode and the way conventional current would flow if there wasnt a diode there blocking it). usefully, this means we can get current that depends on light. the dark current is just the trickle that leaks through the diode when there's no light falling on it.

The graphs for these are most interesting in the negative voltage region (whichever of photovoltaic/photoconductive this corresponds to, i cant remember) because of this light-dependent current property, and the graphs usually have multiple lines telling us what current leaks through for a certain intensity. since these lines are flat, higher reverse-bias voltages dont affect the leakage current - it is only dependent on light intensity (for an ideal photodiode anyway)

the other mode isnt as interesting and i cant remember but i think it just functions like a regular diode when in forward bias, at least that's what the graphs suggest for voltages > switch on voltage.
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