Attached are 2 pictures, please answer all questions. ConstantsHow many 0.5W resistors, each of the sameresistance, must be used to produce an equivalent3.0 kN, 4.0 W resistor? What is the resistance ofHow many 0.5W resistors connected in series, each of the same resistance, must be used to produce an equivalent3.0 kN, 4.0 W resistor?each, and how must they be connected? Do notexceed P = 0.5W in each resistor.Give your answer as an integer.?n =resistors rated at 0.5W, in seriesSubmitRequest AnswerPart CWhat is the resistance of each?Express your answer using two significant figures.?Rseries =2 for each resistorSubmitRequest Answer ConstantsHow many 0.5W resistors, each of the sameresistance, must be used to produce an equivalent3.0 k2, 4.0 W resistor? What is the resistance ofeach, and how must they be connected? Do notexceed P = 0.5W in each resistor.Part DHow many 0.5W resistors connected in parallel, each of the same resistance, must be used to produce anequivalent 3.0 kN , 4.0 W resistor?Give your answer as an integer.ν ΑΣφ?n =resistors rated at 0.5W, in parallelSubmitRequest AnswerPart EWhat is the resistance of each?Express your answer using two significant figures.Rparallel =kN for each resistorSubmitRequest Answer

Given:- The power of the single resistor = 0.5 W The total equivalent resistor is 3 KΩ= 3000 Ω…

How many 0.5W resistors, each of the same resistance, must be used to produce an equivaler 3.0 kN , 4.0 W resistor? What is the resistance c each, and how must they be connected? Do not exceed P = 0.5W in each resistor.

How many 0.5W resistors, each of the same resistance, must be used to produce an equivaler 3.0 kN , 4.0 W resistor? What is the resistance c each, and how must they be connected? Do not exceed P = 0.5W in each resistor.

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter29: Direct Current (dc) Circuits

Section: Chapter Questions

Problem 64PQ: Ralph has three resistors, R1, R2, and R3, connected in series. When connected to an ideal emf...

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