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100 12002 W- 12V Ammeter 2202 2200 Figure 4: Wheatstone Bridge with Ammeter For Figure 4,...
Problem 1 (Scorelator) Consider the truss bridge diagrammed below. The bridge is composed of trus...
solve a-c
Problem 1 (Scorelator) Consider the truss bridge diagrammed below. The bridge is composed of trusses (steel beams) that are connected at joints or nodes. Each truss exerts a force, F, on the nodes that t touches. When the bridge is at rest, these forces balance. A positive force means that the beam is in tension: it is being pulled apart by the nodes. A negative force means that the beam is being pushed inwards and is in compression...
7.13. Consider the Wheatstone bridge circuit in Figure 7.8 with R 1000 Ω (a) If AR is 100 Ω, what is the percent error in VoUT that arises from using the linear approximation in Equation (7.10) versu...
7.13. Consider the Wheatstone bridge circuit in Figure 7.8 with R 1000 Ω (a) If AR is 100 Ω, what is the percent error in VoUT that arises from using the linear approximation in Equation (7.10) versus the exact expression in Equation (79)? (b) Repeat for AR-500 Ω. Ry L1 Vpc VouT VB Rf Wheatstone bridge circuit used to interface a resistive sensor. FIGURE 7.8
7.13. Consider the Wheatstone bridge circuit in Figure 7.8 with R 1000 Ω (a) If...
Now you know the circuit in Problem 1 is a differential amplifier. You prepared a Wheatstone bridge circuit with 4 strain gauges (R1-R2-R3 R4 100 2, AR1- AR4, AR2- AR3) for measuring mechanical prope...
Now you know the circuit in Problem 1 is a differential amplifier. You prepared a Wheatstone bridge circuit with 4 strain gauges (R1-R2-R3 R4 100 2, AR1- AR4, AR2- AR3) for measuring mechanical property of a cantilever beam. You are expecting the differential amplifier will amplify _1'a, with a gain A of the differential amplifier. 50042 Cr 1 00Ω 1002 5002 R2, Rs bonded to bottom surface Differential Amplifier Strain gauges Wheatstone Bridge (1) Determine va and vb of the...
Problem-4. Kirchhoff Rules. If the ammeter shown in figure reads 0.3 A, what are the currents...
Problem-4. Kirchhoff Rules. If the ammeter shown in figure reads 0.3 A, what are the currents I, 1; and the battery ? Note, when setting up equations, label in the circuit which loop you are talking about, which point you start from, etc. 10V 0.502 w 0.312 1, E A 1012
Review Qns 2 - ME 344 Instrumentation &Measurements Question 1: A simple Wheatstone bridge has ar...
Answers for q 2,3 and 4 asap please !?
Review Qns 2 - ME 344 Instrumentation &Measurements Question 1: A simple Wheatstone bridge has arms of R 1212, R2 1192, and R,-1212. What is the value of R4 for balance? If R4-122 and the bridge is driven with a source at 100 V, what is the open-circuit output voltage? (123.0 Ω, 100 V, 0.21 V) Question 2: A capacitive transducer uses two quartz diaphragms of area 600 mm2 separated by...
3. For the regulated power supply shown in Figure 5-3, which is a full-wave bridge rectifier...
3. For the regulated power supply shown in Figure 5-3, which is a full-wave bridge rectifier containing ter combined with a Zener diode voltage regulator, determine the load voltage VI, load current Ir, source current Is, Zener current Iz and the ripple voltage at the input and output of the regulator, and r(p-p)y respectively, and the ripple frequency fr a fil- VL Ir. Is Iz=. (d-4)1a Ur(p-P) Is V' 1N4002GP Vout = VL + Iz IL 100 V2 120 V...
4) A 100 foot long simply-supported bridge girder supports the unfactored loads shown in the figure....
4) A 100 foot long simply-supported bridge girder supports the unfactored loads shown in the figure. The uniformly distributed dead load, wD, includes the self weight of the girder, and is constant along the full beam length. Concentrated live loads, PL, are applied as shown in the figure. a) Draw factored shear force and factored bending moment diagrams in the spaces provided. Show magnitudes at locations A, B, C, D and E on each diagram.(8) PL = 50k PL-50k WD-2.5...
Title: Nodal Analysis Score: / 100 Student name: Scope: Chapter (4) Student #: Date: For the...
Title: Nodal Analysis Score: / 100 Student name: Scope: Chapter (4) Student #: Date: For the circuits shown: 2003 R3 R3 w 10ko 10kg R2 W 1kg 1kg 4.7ko R6 50% 102 Key=A R6 50% 1012 Key=A 06 FH Vs2 = 15 V 1) Calculate the voltages in nodes 2, 3, and 4 in circuit (a), via applying the following: i. writing the KCL equations and using MATLAB to solve them, and ii. simulating the circuit in Multisim. 2) Repeat...
12. What is the configuration analysis defined by transistor Q2 in Figure 4? 20v 18 68...
12. What is the configuration analysis defined by transistor Q2 in Figure 4? 20v 18 68 C Ver 02 ce lu 56 WI HE C 4760 150 Figure 4 A Common Collector B. Common Base C. Common Emitter D. Emitter Follower 13. Refer on Figure 4 also, what is the type of connection on this design? A Cascade amplifier B. Cascode amplifier C. Darlington amplifier D. Transformer amplifier 14. Based on Figure 4, state the name of circuit diagram applied...
Problem 2: Designing Culverts Under a Bridge on El Rio de las Aguas Torenciales A 100-year stom e...
Problem 2: Designing Culverts Under a Bridge on El Rio de las Aguas Torenciales A 100-year stom event is being considered in order to design the culverts under a bridge. Figure 3 shows the storm event that may fall on the rural watershed of area 3.2 Km that drains into El Rio de las Aguas Torenciales. It generates runoff all over the watershed. The runoff flows into the river towards the ast point A (Figure 4) in the watershed where...
solve a-c
Problem 1 (Scorelator) Consider the truss bridge diagrammed below. The bridge is composed of trusses (steel beams) that are connected at joints or nodes. Each truss exerts a force, F, on the nodes that t touches. When the bridge is at rest, these forces balance. A positive force means that the beam is in tension: it is being pulled apart by the nodes. A negative force means that the beam is being pushed inwards and is in compression...
7.13. Consider the Wheatstone bridge circuit in Figure 7.8 with R 1000 Ω (a) If AR is 100 Ω, what is the percent error in VoUT that arises from using the linear approximation in Equation (7.10) versus the exact expression in Equation (79)? (b) Repeat for AR-500 Ω. Ry L1 Vpc VouT VB Rf Wheatstone bridge circuit used to interface a resistive sensor. FIGURE 7.8
7.13. Consider the Wheatstone bridge circuit in Figure 7.8 with R 1000 Ω (a) If...
Now you know the circuit in Problem 1 is a differential amplifier. You prepared a Wheatstone bridge circuit with 4 strain gauges (R1-R2-R3 R4 100 2, AR1- AR4, AR2- AR3) for measuring mechanical property of a cantilever beam. You are expecting the differential amplifier will amplify _1'a, with a gain A of the differential amplifier. 50042 Cr 1 00Ω 1002 5002 R2, Rs bonded to bottom surface Differential Amplifier Strain gauges Wheatstone Bridge (1) Determine va and vb of the...
Problem-4. Kirchhoff Rules. If the ammeter shown in figure reads 0.3 A, what are the currents I, 1; and the battery ? Note, when setting up equations, label in the circuit which loop you are talking about, which point you start from, etc. 10V 0.502 w 0.312 1, E A 1012
Answers for q 2,3 and 4 asap please !?
Review Qns 2 - ME 344 Instrumentation &Measurements Question 1: A simple Wheatstone bridge has arms of R 1212, R2 1192, and R,-1212. What is the value of R4 for balance? If R4-122 and the bridge is driven with a source at 100 V, what is the open-circuit output voltage? (123.0 Ω, 100 V, 0.21 V) Question 2: A capacitive transducer uses two quartz diaphragms of area 600 mm2 separated by...
3. For the regulated power supply shown in Figure 5-3, which is a full-wave bridge rectifier containing ter combined with a Zener diode voltage regulator, determine the load voltage VI, load current Ir, source current Is, Zener current Iz and the ripple voltage at the input and output of the regulator, and r(p-p)y respectively, and the ripple frequency fr a fil- VL Ir. Is Iz=. (d-4)1a Ur(p-P) Is V' 1N4002GP Vout = VL + Iz IL 100 V2 120 V...
4) A 100 foot long simply-supported bridge girder supports the unfactored loads shown in the figure. The uniformly distributed dead load, wD, includes the self weight of the girder, and is constant along the full beam length. Concentrated live loads, PL, are applied as shown in the figure. a) Draw factored shear force and factored bending moment diagrams in the spaces provided. Show magnitudes at locations A, B, C, D and E on each diagram.(8) PL = 50k PL-50k WD-2.5...
Title: Nodal Analysis Score: / 100 Student name: Scope: Chapter (4) Student #: Date: For the circuits shown: 2003 R3 R3 w 10ko 10kg R2 W 1kg 1kg 4.7ko R6 50% 102 Key=A R6 50% 1012 Key=A 06 FH Vs2 = 15 V 1) Calculate the voltages in nodes 2, 3, and 4 in circuit (a), via applying the following: i. writing the KCL equations and using MATLAB to solve them, and ii. simulating the circuit in Multisim. 2) Repeat...
12. What is the configuration analysis defined by transistor Q2 in Figure 4? 20v 18 68 C Ver 02 ce lu 56 WI HE C 4760 150 Figure 4 A Common Collector B. Common Base C. Common Emitter D. Emitter Follower 13. Refer on Figure 4 also, what is the type of connection on this design? A Cascade amplifier B. Cascode amplifier C. Darlington amplifier D. Transformer amplifier 14. Based on Figure 4, state the name of circuit diagram applied...
Problem 2: Designing Culverts Under a Bridge on El Rio de las Aguas Torenciales A 100-year stom event is being considered in order to design the culverts under a bridge. Figure 3 shows the storm event that may fall on the rural watershed of area 3.2 Km that drains into El Rio de las Aguas Torenciales. It generates runoff all over the watershed. The runoff flows into the river towards the ast point A (Figure 4) in the watershed where...
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