In the network shown, the equivalent resistance between A and B is

In the network shown, the equivalent resistance between A and B is
by

1 Answer

Answer :

In the network shown, the equivalent resistance between A and B is A. `(4)/(3)Omega` B. `(3)/(4)Omega` C. `(24)/(17)Omega` D. `(17)/(24)Omega`
by
selected by

Related questions

Compute the equivalent resistance of the network shown in A and B? -Technology

Description : Compute the equivalent resistance of the network shown in A and B? -Technology

Last Answer : 1 is correct

The equivalent resistance resistance between A and B of network shown in figure is

Description : The equivalent resistance resistance between A and B of network shown in figure is

Last Answer : The equivalent resistance resistance between A and B of network shown in figure is A. `(3R)/(4)` B. `(4R)/(3)` C. 6 R D. 2 R

The equivalent resistance between point A and B of an infinite network of resistance, each of `1Omega`, connected as shown, is

Description : The equivalent resistance between point A and B of an infinite network of resistance, each of `1Omega`, connected as shown, is

Last Answer : The equivalent resistance between point A and B of an infinite network of resistance, each of `1Omega`, connected ... C. `(1+sqrt5)/(2)Omega` D. zero

In the network of resistors shown in the adjoining figure, the equivalent resistance between A and B is

Description : In the network of resistors shown in the adjoining figure, the equivalent resistance between A and B is

Last Answer : In the network of resistors shown in the adjoining figure, the equivalent resistance between A and B is A. 54 ... `Omega` C. 36 `Omega` D. 9 `Omega`

Find the Norton equivalent resistance for the network shown in Fig No. 2

Description : Find the Norton equivalent resistance for the network shown in Fig No. 2

Last Answer : Solution: To find Norton’s equivalent resistance removing voltage source and current source. Voltage source is replaced by short circuit and current source is replaced by open circuit so, we get circuit as

Find the equivalent resistance of the networks shown in Fig. 4.51 between the points A and B.

Description : Find the equivalent resistance of the networks shown in Fig. 4.51 between the points A and B.

Last Answer : Find the equivalent resistance of the networks shown in Fig. 4.51 between the points A and B.

Find the equivalent resistance of the circuit shown in Fig.4.60 between the points A and B. Each resistor has a resistance r.

Description : Find the equivalent resistance of the circuit shown in Fig.4.60 between the points A and B. Each resistor has a resistance r.

Last Answer : Find the equivalent resistance of the circuit shown in Fig.4.60 between the points A and B. Each resistor has a resistance r.

For the circuit shown in figure given below, the equivalent resistance points A and B is

Description : For the circuit shown in figure given below, the equivalent resistance points A and B is

Last Answer : For the circuit shown in figure given below, the equivalent resistance points A and B is A. `10Omega` B. `5 Omega` C. `(10)/(3)Omega` D. `2Omega`

In the arrangement shown, the magnitude of each resistance is `1Omega`. The equivalent resistance between O and A is given by

Description : In the arrangement shown, the magnitude of each resistance is `1Omega`. The equivalent resistance between O and A is given by

Last Answer : In the arrangement shown, the magnitude of each resistance is `1Omega`. The equivalent resistance between O and A is ... )/(3)Omega` D. `(5)/(6)Omega`

What is the total resistance of the circuit shown in figure 3- 59? (Hint: Redraw the circuit to simplify and then use equivalent resistances to compute for RT.)

Description : What is the total resistance of the circuit shown in figure 3- 59? (Hint: Redraw the circuit to simplify and then use equivalent resistances to compute for RT.)

Last Answer : 4Ω

Find the equivalent resistance of the network showed in figure between the terminal A and B? -Technology

Description : Find the equivalent resistance of the network showed in figure between the terminal A and B? -Technology

Last Answer : This answer was deleted by our moderators...

If each of the resistance in the network in figure `R`, the equivalent resistance between terminals `A` and `B` is

Description : If each of the resistance in the network in figure `R`, the equivalent resistance between terminals `A` and `B` is

Last Answer : If each of the resistance in the network in figure `R`, the equivalent resistance between terminals `A` and `B` is A. R B. 5R C. 3R D. 6R

What is the equivalent resistance of a network having 5 resistors of each 10ohm connected in parallel?

Description : What is the equivalent resistance of a network having 5 resistors of each 10ohm connected in parallel?  (A) 10 Ohms (B) 50 Ohms (C) 500 Ohms (D) 2 Ohms 

Last Answer : D) 2 ohms Solution: 1/Rt = (1/R)(n) 1/Rt = (1/10) (5) 1/Rt = 5/10    Rt = 2 ohms

The effective resistance between points A and C for the network shown figure is

Description : The effective resistance between points A and C for the network shown figure is

Last Answer : The effective resistance between points A and C for the network shown figure is A. `(2)/(3)R` B. `(3)/(2)R` C. 2R D. `(1)/(2R)`

Consider the following statements regarding the network shown in the figure. The eqivalent resistance of the network between points A and B is indepen

Description : Consider the following statements regarding the network shown in the figure. The eqivalent resistance of the network between points A and B is indepen

Last Answer : Consider the following statements regarding the network shown in the figure. The eqivalent resistance of the network between ... D. (1), (2) and (3)

Consider the star network shown in figure. The resistance between terminals A and B with C open is 6 ohms,

Description : Consider the star network shown in figure. The resistance between terminals A and B with C open is 6 ohms, between terminals B and C withAopen is 11 ohms and between terminals C andAwith B open is 9 ohms. Then RA, RB, RC respectively is 

Last Answer : Consider the star network shown in figure. The resistance between terminals A and B with C open is 6 ohms, between terminals B and C withAopen is 11 ohms and between terminals C andAwith B open is 9 ohms. Then RA, RB, RC respectively is  2, 4,7

Find the equivalent damping constant of the system shown in Fig. for c1=22N.s/m and c2= 11N.s/m a) 40 N/m 2 b)38 N/m 2 c)44 N/m 2 d)8.8 N/m 2

Description : Find the equivalent damping constant of the system shown in Fig. for c1=22N.s/m and c2= 11N.s/m a) 40 N/m 2 b)38 N/m 2 c)44 N/m 2 d)8.8 N/m 2

Last Answer : c)44 N/m 2

Determine the equivalent spring constant of the system shown in FigK1=10 N/m, K2=20 N/m. K3=30 N/m, K4=34 N/m, K5=40 N/m a) 10N/m b)20N/m c)30N/m d) None

Description : Determine the equivalent spring constant of the system shown in FigK1=10 N/m, K2=20 N/m. K3=30 N/m, K4=34 N/m, K5=40 N/m a) 10N/m b)20N/m c)30N/m d) None

Last Answer : b)20N/m

Calculate equivalent stiffness of the spring for the system shown below, which has spring stiffness of 3000 N/m a. 1000 N/m b. 2250 N/m c. 2000 N/m d. None of the above

Description : Calculate equivalent stiffness of the spring for the system shown below, which has spring stiffness of 3000 N/m a. 1000 N/m b. 2250 N/m c. 2000 N/m d. None of the above

Last Answer : b. 2250 N/m

The TCP/IP _______ layer is equivalent to the combined session, presentation, and application layers of the OSI model. a.data link b.network c.physical d.application

Description : The TCP/IP _______ layer is equivalent to the combined session, presentation, and application layers of the OSI model. a.data link b.network c.physical d.application

Last Answer : d.application

In a token ring network the transmission speed is 10^7 bps and the propagation speed is 200 metres/micro second. The 1- bit delay in this network is equivalent to: a. 500 metres of cable. b. 200 metres of cable. c. 20 metres of cable. d. 50 metres of cable

Description : In a token ring network the transmission speed is 10^7 bps and the propagation speed is 200 metres/micro second. The 1- bit delay in this network is equivalent to: a. 500 metres of cable. b. 200 metres of cable. c. 20 metres of cable. d. 50 metres of cable

Last Answer : c. 20 metres of cable.

TCP/IP layer is equivalent to combined Session, Presentation and a. Transport layer b. Network layer c. Application layer d. Physical layer

Description : TCP/IP layer is equivalent to combined Session, Presentation and a. Transport layer b. Network layer c. Application layer d. Physical layer

Last Answer : c. Application layer

What layer in the TCP/IP stack is equivalent to the Transport layer of the OSI model? a. Internet b. Host to host c. Network Access d. Application

Description : What layer in the TCP/IP stack is equivalent to the Transport layer of the OSI model? a. Internet b. Host to host c. Network Access d. Application

Last Answer : b. Host to host

The first law of thermodynamics may be expressed in the following equivalent  a. the net heat transfer id equal to the network  b. the sum of the total energy forms leaving the system boundary is always equal to the energy input  c. energy can neither be created nor destroyed but only converted from one form to another  d. all of the above

Description : The first law of thermodynamics may be expressed in the following equivalent  a. the net heat transfer id equal to the network  b. the sum of the total energy forms leaving the system boundary is ... neither be created nor destroyed but only converted from one form to another  d. all of the above

Last Answer : all of the above

It is logically equivalent to making telephone call through the DDD network except no direct end-to-end connection is made

Description : It is logically equivalent to making telephone call through the DDD network except no direct end-to-end connection is made

Last Answer : Virtual call

Convert the delta network into equivalent star network.

Description : Convert the delta network into equivalent star network.

Last Answer : Delta to start network R1 = 4x6/ 4+6+2 = 24/12 =2/1= 2Ω R2 = 2x6/ 4+6+2 = 12/12= 1 = 1Ω R3 = 4x 2/ 4+6+2 = 8/12= 2/3= 0.66Ω

Norton’s theorem states that a complex network connected to a load can be replaced with an equivalent

Description : Norton’s theorem states that a complex network connected to a load can be replaced with an equivalent impedance (A) in series with a current source (B) in parallel with a voltage source (C) in series with a voltage source (D) in parallel with a current source

Last Answer : in parallel qith current source

A network consists of several inductances connected in parallel. The equivalent inductance of the network is

Description : A network consists of several inductances connected in parallel. The equivalent inductance of the network is given by (A) the sum of the individual inductances. (B) the reciprocal of the ... of individual inductances. (D) the reciprocal of the sum of reciprocals of individual inductances.

Last Answer : A network consists of several inductances connected in parallel. The equivalent inductance of the network is given by the reciprocal of the sum of reciprocals of individual inductances.

Find the potential difference between the points A and B for the network shown in Fig. 4.52.

Description : Find the potential difference between the points A and B for the network shown in Fig. 4.52.

Last Answer : Find the potential difference between the points A and B for the network shown in Fig. 4.52.

In the network shown in fig. , points A, B, and C are at potentials of 70 V, 0, and 10V, respectively.

Description : In the network shown in fig. , points A, B, and C are at potentials of 70 V, 0, and 10V, respectively.

Last Answer : In the network shown in fig. , points A, B, and C are at potentials of 70 V, 0, and 10V, respectively. ... AB, DB and DC are in the ratio of `3:2:1`

The three time estimates for the activities of the network shown in the given figure are shown above their arrows. The earliest expected time for the event 4, is (A) 19 (B) 14 (C) 24 (D) None of these

Description : The three time estimates for the activities of the network shown in the given figure are shown above their arrows. The earliest expected time for the event 4, is (A) 19 (B) 14 (C) 24 (D) None of these

Last Answer : (A) 19

For the network shown in the given figure, the expected time for the activity (A) 1-2 is 4 (B) 2-3 is 7 (C) 3-4 is 8 (D) All the above

Description : For the network shown in the given figure, the expected time for the activity (A) 1-2 is 4 (B) 2-3 is 7 (C) 3-4 is 8 (D) All the above

Last Answer : (D) All the above

Calculate the equivalent resistance between points A and B in each of the following networks of resistors :

Description : Calculate the equivalent resistance between points A and B in each of the following networks of resistors :

Last Answer : Calculate the equivalent resistance between points A and B in each of the following networks of resistors :

A `5 Omega` resistor is connected in series with a parallel combination of n resistors of `6 Omega` each. The equivalent resistance is `7 Omega`. Find

Description : A `5 Omega` resistor is connected in series with a parallel combination of n resistors of `6 Omega` each. The equivalent resistance is `7 Omega`. Find

Last Answer : A `5 Omega` resistor is connected in series with a parallel combination of n resistors of `6 Omega ... The equivalent resistance is `7 Omega`. Find n.

The equivalent resistance of two resistor connected in series is `6 Omega` and their equivalent resistance is `(4)/(3)Omega`. What are the values of r

Description : The equivalent resistance of two resistor connected in series is `6 Omega` and their equivalent resistance is `(4)/(3)Omega`. What are the values of r

Last Answer : The equivalent resistance of two resistor connected in series is `6 Omega` and their equivalent resistance is `(4 ... , 2 Omega` D. `6 Omega, 2 Omega`

In a uniform ring of resistance `R` there are two points `A` and `B` such that `/_ ACB = theta`, where `C` is the centre of the ring. The equivalent r

Description : In a uniform ring of resistance `R` there are two points `A` and `B` such that `/_ ACB = theta`, where `C` is the centre of the ring. The equivalent r

Last Answer : In a uniform ring of resistance `R` there are two points `A` and `B` such that `/_ ACB = theta`, where `C` ... ))` D. `(R )/(4pi^(2))(2pi-theta)theta`

Consider the combination of resistor, The equivalent resistance between a and b is

Description : Consider the combination of resistor, The equivalent resistance between a and b is

Last Answer : Consider the combination of resistor, The equivalent resistance between a and b is A. `(R )/(6)` B. `(2R)/(3)` C. `(R )/(3)` D. `3R`

Equivalent resistance between points A and B is `0.5 xR.` Find value of x.

Description : Equivalent resistance between points A and B is `0.5 xR.` Find value of x.

Last Answer : Equivalent resistance between points A and B is `0.5 xR.` Find value of x. A. 3R B. 4R C. `(5R)/(2)` D. `(7R)/(2)`

Equivalent resistance between A and B will be

Description : Equivalent resistance between A and B will be

Last Answer : Equivalent resistance between A and B will be A. 2`Omega` B. 18`Omega` C. 6`Omega` D. `3.6Omega`

The equivalent resistance between P and Q in the figure is approximately

Description : The equivalent resistance between P and Q in the figure is approximately

Last Answer : The equivalent resistance between P and Q in the figure is approximately A. 6`Omega` B. 5.333`Omega` C. `7.5Omega` D. 20`Omega`

Find the equivalent resistance across `AB` :

Description : Find the equivalent resistance across `AB` :

Last Answer : Find the equivalent resistance across `AB` : A. 1`Omega` B. 2`Omega` C. 3`Omega` D. 4`Omega`

Three unequal resistor in parallel are equivalent to a resistance `1` ohm If two of them are in the ratio `1:2` and if no resistance value is fraction

Description : Three unequal resistor in parallel are equivalent to a resistance `1` ohm If two of them are in the ratio `1:2` and if no resistance value is fraction

Last Answer : Three unequal resistor in parallel are equivalent to a resistance `1` ohm If two of them are in the ratio `1:2` and ... in ohm is A. 4 B. 6 C. 8 D. 12

Equivalent resistance between the points `A` and `B` (in `Omega`) .

Description : Equivalent resistance between the points `A` and `B` (in `Omega`) .

Last Answer : Equivalent resistance between the points `A` and `B` (in `Omega`) . A. `(1)/(5)` B. `(5)/(4)` C. `(7)/(3)` D. `(7)/(2)`

A wire of resistance R is cut into ‘n’ equal parts. These parts are then connected in parallel. The equivalent resistance of the combination will be – (1) nR (2) R/n (3) n/R (4) R/n²

Description : A wire of resistance R is cut into ‘n’ equal parts. These parts are then connected in parallel. The equivalent resistance of the combination will be – (1) nR (2) R/n (3) n/R (4) R/n²

Last Answer : (4) R/n² Explanation: Since R is directly proportional to length of the wire, when wire is cut into equal parts, then Resistance of each part = R/n

A receiver connected to an antenna whose resistance is 50 Ω has an equivalent noise resistance of 30Ω. Calculate its equivalent noise temperature if the noise figure is equal to 1.6. A. 17.4 K B. 174K C. 1.74K D. 17K

Description : A receiver connected to an antenna whose resistance is 50 Ω has an equivalent noise resistance of 30Ω. Calculate its equivalent noise temperature if the noise figure is equal to 1.6. A. 17.4 K B. 174K C. 1.74K D. 17K

Last Answer : B. 174K

Calculate the noise figure of the receiver whose RF amplifier has an input resistance of 1000Ω and an equivalent shot-noise resistance of 2000Ω, a gain of 25 and load resistance of 125 kΩ. Given that the bandwidth is 1.0MHz and the temperature is 20˚C, and that the receiver is connected to an antenna with an impedance of 75Ω. A. 30.3 B. 3.03 C. 303 D. .303

Description : Calculate the noise figure of the receiver whose RF amplifier has an input resistance of 1000Ω and an equivalent shot-noise resistance of 2000Ω, a gain of 25 and load resistance of 125 kΩ. Given that the bandwidth is 1. ... to an antenna with an impedance of 75Ω. A. 30.3 B. 3.03 C. 303 D. .303

Last Answer : A. 30.3

One of the following is not a useful quantity for comparing the noise performance receivers. A. Input noise voltage B. Equivalent noise resistance C. Noise temperature D. Noise figure.

Description : One of the following is not a useful quantity for comparing the noise performance receivers. A. Input noise voltage B. Equivalent noise resistance C. Noise temperature D. Noise figure.

Last Answer : A. Input noise voltage