Solved The Figure Below Shows A Network Of Connected Chegg Question: the figure below shows a network of connected resistors between points a and b. the resistance of each is given in the figure. an open circuit containing five resistors starts at point a and ends at point b. the circuit extends to the right from point a and splits into two parallel horizontal branches. An open circuit containing five resistors starts at point a and ends at point b. the circuit extends to the right from point a and splits into two parallel horizontal branches.
Solved The Figure Below Shows A Network Of Connected Res We are required to find the equivalent resistance between point a and point b of the given circuit. firstly, let us take into consideration the triangle a f e. from the figure, it is clear that resistor across a f and resistor across f e are connected in series. using equation 1, their equivalent resistance is given by. Six resistances are connected together as shown in the figure. calculate the equivalent resistance between points a and b. the resistors r 2, r 3 and r 4 in series. ∴ r' = r 2 r 3 r 4. = 2 3 5 = 10 Ω. now r' and r 5 are in parallel. ∴ r r r 1 r ′ ′ = 1 r ′ 1 r 5. = 1 10 1 10 = 2 10 = 1 5. ∴ r'' = 5 Ω. R e f f = 5 r 3 × r 5 r 3 r = 5 r 8 (b) the circuit can be simplified, as shown below. the effective resistance between the points a and b, r e f f = (r 3) r = 4 r 3 (c) from the figure, it can be seen that axbya is a balanced wheatstone bridge. the resistors in branch xy will, thus, become ineffective. the circuit can be simplified as under. Question: the figure below shows a network of connected resistors between points a and b. the resistance of each is given in the figure. (a)what is the equivalent resistance (in Ω) of the entire network between points a and b? Ω (b)a battery with a.
Solved The Figure Below Shows A Network Of Connected Chegg R e f f = 5 r 3 × r 5 r 3 r = 5 r 8 (b) the circuit can be simplified, as shown below. the effective resistance between the points a and b, r e f f = (r 3) r = 4 r 3 (c) from the figure, it can be seen that axbya is a balanced wheatstone bridge. the resistors in branch xy will, thus, become ineffective. the circuit can be simplified as under. Question: the figure below shows a network of connected resistors between points a and b. the resistance of each is given in the figure. (a)what is the equivalent resistance (in Ω) of the entire network between points a and b? Ω (b)a battery with a. (a) what is the equivalent resistance (in Ω) of the entire network between points a and b? (b) a battery with a potential difference of 38.2 v is connected to the network, with one terminal connected to point a and the other connected to point b. (a) what is the equivalent resistance (in Ω) of the entire network between points a and b? Ω (b) a battery with a potential difference of 58.9 v is connected to the network, with one terminal connected to point a and the other connected to point b. Stepwise simplification: the most straightforward approach is to systematically combine resistors in series and parallel until a single equivalent resistance between points a and b is obtained. symmetry (optional): observe any symmetry in the network to potentially simplify calculations. (b) a battery with a potential difference of 59.6v is connected to the network, with one terminal connected to point a and the other connected to point b. what is the current (in a) in each resistor?.