Can you help me to solve this question, please:) thanks
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Can you help me to solve this question, please:) thanks
(b) Two LEDs are connected in...
You must first calculate and select appropriate values for R. R and Rc that will tun on the LEDs. Configuration A Configuration B RA Rc From the insights gained conducting these evaluations, you...
You must first calculate and select appropriate values for R. R and Rc that will tun on the LEDs. Configuration A Configuration B RA Rc From the insights gained conducting these evaluations, you are then required to: Design, evaluate (with regard to the four criteria above) and recommend an LED array configuration that will provide a minimum of 250 lux at a distance of 20cm. You may assume that: The source voltage available to power the LEDs is Vs-4.8V LED...
Can you help me to solve question B4 , please:) please B1. (a) A DC circuit...
Can you help me to solve
question B4 , please:)
please
B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT)...
Can you help me to solve this question, please:) B1. (a) A DC circuit is shown...
Can you help me to solve this question,
please:)
B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT) (2 marks)
Can you help me to solve this question, please:) B3. (a) Given the magnetic circuit below:...
Can you help me to solve this
question, please:)
B3. (a) Given the magnetic circuit below: Path P= 50 cm 5A 300 turns coil A= 6 cm Fig. B3(a) (1) Determine the magnetomotive force (MMF) produced by the coil; (3 marks) (ii) Calculate the average magnetic field strength (H) in the ring: (3 marks) (iii) If the relative magnetic permeability (lly) of the ring material is 1200, find the average magnetic flux density (B) in the ring. Given lo =...
Please answer me step by step thanks Question 2: Th is question relates to diodes and...
Please answer me step by step thanks
Question 2: Th is question relates to diodes and transistor amplifiers The following question relates to the diode circuit in Figure 2a below. if t E- SV, and the diode was a Red LED, determine; (i) the voltage across the diode, Vo (ii) the value of resistor R, that will give a current, 1 4mA (ii) the current, I, if E--5V (a) he voltage source Figure 2a 8 marks] er amplifier circuit shown...
can you help me answer question #6 please the first circuit was series the second circuit...
can you help me answer question #6 please
the first circuit was series
the second circuit was parallel
and the third circuit was both
thank you
4) Calculate the EXPECTED voltage through each resistor for each of the circuits (#1, 2) in PART II from the total current and the equivalent resistance. Calculate %error for one your measurements based on the calculated value from this question. 5) Calculate the EXPECTED current THROUGH EACH RESISITOR for each of the circuits (#1,...
HI GUYS CAN YOU HELP ME SOLVE THIS QUESTION ASAP PLS AND THANKS!! QUESTION 6 ONLY,...
HI GUYS CAN YOU HELP ME SOLVE THIS QUESTION ASAP PLS AND
THANKS!! QUESTION 6 ONLY, THE 15 MARK QUESTION. CAN YOU CALCULATE
THE THEOREATICAL VALUES WITH THESE 3 VALUES: 10HZ, 1KHZ, 10KHZ. AND
USING THIS VALUES. R = 1000Ω,C = 1µF, L = 0.23mh. not the L=44
thanks.
Exercise 2 [60 marks] RLC Circuit as a Low-pass Filter L 0000 in out Figure 2. RLC circuit 2 10 marks] Derive the second order input-output model (differential equation) for the...
Just need to solve Part b. Please show all the work. Thank You. Consider the following...
Just need to solve Part b. Please show all the work. Thank You.
Consider the following figure. (Assume V = 15 V, R = 2.1Q, and R, = 1.6 1.) 24 V 4.0 NB I w 3.012 RB 1: 5.0 12 (a) Can the circuit shown above be reduced to a single resistor connected to the batteries? Explain. No the circuit shown above can't be reduced to a single resistor connected to the batteries because different currents flow thru each...
Please help me answer this 3-part question based on the information that follows, showing work when...
Please help me answer this 3-part question based on the
information that follows, showing work when helpful:
a. What is the effective resistance of the resistors you
used for number 3?
b. Which of your measurements had the smallest relative
uncertainty?
c. Batteries have an internal resistance, which we have
not considered in the lab. How would the internal resistance of
your battery affected your calculations for part a?
R1=10 KiloOhms, R2=2.2 KiloOhms, R3=1 KiloOhm, E1 and E2 each
equal...
PLEASE SOLVE THE FOLLOWING PHYSICS QUESTION SHOWING ALL STEPS AND WORK. THANKS 4. (a. c. circuits,...
PLEASE SOLVE THE FOLLOWING PHYSICS QUESTION SHOWING ALL STEPS
AND WORK. THANKS
4. (a. c. circuits, 4/ea.) mE Given: 1) a.c. source:1 (t) = 10sin(376.8t) 2) R = 100 ohm; C = 35.2 uF; and L = 200 mH. Find: (a) The rms voltage on the resistor R. Ans._ 707 V (b) The max voltage on L. Ans._754 V_ (c) The max voltage on capacitor C. Ans. _754 V__ (d) is the circuit in a resonance? Ans. Yes. _X_ or...
You must first calculate and select appropriate values for R. R and Rc that will tun on the LEDs. Configuration A Configuration B RA Rc From the insights gained conducting these evaluations, you are then required to: Design, evaluate (with regard to the four criteria above) and recommend an LED array configuration that will provide a minimum of 250 lux at a distance of 20cm. You may assume that: The source voltage available to power the LEDs is Vs-4.8V LED...
Can you help me to solve
question B4 , please:)
please
B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT)...
Can you help me to solve this question,
please:)
B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT) (2 marks)
Can you help me to solve this
question, please:)
B3. (a) Given the magnetic circuit below: Path P= 50 cm 5A 300 turns coil A= 6 cm Fig. B3(a) (1) Determine the magnetomotive force (MMF) produced by the coil; (3 marks) (ii) Calculate the average magnetic field strength (H) in the ring: (3 marks) (iii) If the relative magnetic permeability (lly) of the ring material is 1200, find the average magnetic flux density (B) in the ring. Given lo =...
Please answer me step by step thanks
Question 2: Th is question relates to diodes and transistor amplifiers The following question relates to the diode circuit in Figure 2a below. if t E- SV, and the diode was a Red LED, determine; (i) the voltage across the diode, Vo (ii) the value of resistor R, that will give a current, 1 4mA (ii) the current, I, if E--5V (a) he voltage source Figure 2a 8 marks] er amplifier circuit shown...
can you help me answer question #6 please
the first circuit was series
the second circuit was parallel
and the third circuit was both
thank you
4) Calculate the EXPECTED voltage through each resistor for each of the circuits (#1, 2) in PART II from the total current and the equivalent resistance. Calculate %error for one your measurements based on the calculated value from this question. 5) Calculate the EXPECTED current THROUGH EACH RESISITOR for each of the circuits (#1,...
HI GUYS CAN YOU HELP ME SOLVE THIS QUESTION ASAP PLS AND
THANKS!! QUESTION 6 ONLY, THE 15 MARK QUESTION. CAN YOU CALCULATE
THE THEOREATICAL VALUES WITH THESE 3 VALUES: 10HZ, 1KHZ, 10KHZ. AND
USING THIS VALUES. R = 1000Ω,C = 1µF, L = 0.23mh. not the L=44
thanks.
Exercise 2 [60 marks] RLC Circuit as a Low-pass Filter L 0000 in out Figure 2. RLC circuit 2 10 marks] Derive the second order input-output model (differential equation) for the...
Just need to solve Part b. Please show all the work. Thank You.
Consider the following figure. (Assume V = 15 V, R = 2.1Q, and R, = 1.6 1.) 24 V 4.0 NB I w 3.012 RB 1: 5.0 12 (a) Can the circuit shown above be reduced to a single resistor connected to the batteries? Explain. No the circuit shown above can't be reduced to a single resistor connected to the batteries because different currents flow thru each...
Please help me answer this 3-part question based on the
information that follows, showing work when helpful:
a. What is the effective resistance of the resistors you
used for number 3?
b. Which of your measurements had the smallest relative
uncertainty?
c. Batteries have an internal resistance, which we have
not considered in the lab. How would the internal resistance of
your battery affected your calculations for part a?
R1=10 KiloOhms, R2=2.2 KiloOhms, R3=1 KiloOhm, E1 and E2 each
equal...
PLEASE SOLVE THE FOLLOWING PHYSICS QUESTION SHOWING ALL STEPS
AND WORK. THANKS
4. (a. c. circuits, 4/ea.) mE Given: 1) a.c. source:1 (t) = 10sin(376.8t) 2) R = 100 ohm; C = 35.2 uF; and L = 200 mH. Find: (a) The rms voltage on the resistor R. Ans._ 707 V (b) The max voltage on L. Ans._754 V_ (c) The max voltage on capacitor C. Ans. _754 V__ (d) is the circuit in a resonance? Ans. Yes. _X_ or...
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