Jump to content

circuit 2 (picture problem is fixed, who can't see it before please come again)

little boy

By little boy
in Physics

 Share

Recommended Posts

little boy

little boy

Posted
Posted (edited)

Assuming the voltage of the negative terminal is 0, how calculate the voltage of point A and B? And can anyone draw a simpler equivalent circuit for me. God bless the people helping me.

 

picture

 

beside, why am I not allowed to use the image extension on this board?

Edited by little boy
ewmon

ewmon

Posted
Posted (edited)

Is this homework? What are your thoughts about this circuit so far? What have you tried?

 

It requires a couple of assumptions and working through some algebra using some laws of electricity that you probably know.

Edited by ewmon
little boy

little boy

Posted
  • Author
Posted (edited)

I even didn't know it is called bridge circuit, therefore I had not searched the internet.:( Now I found a possible solution.:lol:

 

voltage A=V[R2/(R1+R2)], voltage B=V[R4/(R3+R4)]

 

It is deduced by My link, please check whether I am correct. :)

Edited by little boy
TonyMcC

TonyMcC

Posted
Posted

It's not really a bridge circuit because of R5. You may want to use Kirchhoff's current law that deals with the currents flowing into and out of nodes.

 

R5 makes it a loaded bridge. Ratios of the other resistors will determine whether the loaded bridge is balanced. If unbalanced, you need to use quite a complicated bit of circuit theory. There are quite a few different ways to tackle the unbalanced loaded bridge. e.g Thevenin, superposition or a set of Kirchoff equations.

TonyMcC

TonyMcC

Posted
Posted (edited)

Try looking up Wheatstone bridge.

Unfortunately this will only take you so far. The Wheatstone Bridge is usually considered to have a galvanometer in place of R5. A Galvanometer is an instrument which can detect very small currents. Circuit resistor values are adjusted with the sole aim of getting zero current through the galvanometer. This indicates the circuit is balanced. Under balanced conditions voltages VA and VB could be calculated from basic principles as the galvanometer could be completely ignored. As soon as the galvanometer is replaced by a resistor and the circuit examined under unbalanced conditions things get much more complicated. http://www.hallikainen.org/rw/theory/theory6.html

Edited by TonyMcC

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
 Share
Go to topic listing
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.