Engineering, 18.04.2020 19:28 mleighaj9560

A) Calculate the cross-sectional area, in mm², of a piece of copper wire, 40 m in length
and having a resistance of 0.25 2. Take the resistivity of copper as 0.02 x 10-6 22 m.
b) A coil of 20 2 resistance is joined in parallel with a coil of R2 resistance. This
combination is then joined in series with a piece of apparatus A, and the whole circuit
connected to 100 V mains. What must be the value of R so that A shall dissipate 600
W with 10 A passing through it?
c) A load taking 200 A is supplied by copper and aluminium cables connected in parallel.
The total length of conductor in each cable is 200 m, and each conductor has a cross-
sectional area of 40 mm2. Calculate:
the voltage drop in the combined cables;
the current carried by each cable; .
the power wasted in each cable. Take the resistivity of copper and aluminium
as 0.018 um and 0.028 um respectively.

Answers: 1

Show answers

Another question on Engineering

Engineering, 04.07.2019 18:10

Condition monitoring is a major component of. (clo4) a)- predictive maintenance. b)-preventive maintenance c)-proactive maintenance d)-reactive maintenance.

Answers: 1

Answer

Engineering, 04.07.2019 18:10

Ifa component is made of two or more materials with different modulus of elasticity (e), it is called a composite member and we calculate the factor·n". mention the formula for calculating n". also, ifn> 1, explain what will happen to the 1. transformed.gi) ifn 1, what will happen to the material when transformed material when

Answers: 1

Answer

Engineering, 04.07.2019 18:10

Which one from below is not one of the reasons of planning failures? (clo3) a)-planner is careless. b-planner spend less time in the field but more time on the desk c)-planner is not qualified d)-planner does not have sufficient time to properly plan

Answers: 3

Answer

Engineering, 04.07.2019 18:20

Derive the correction factor formula for conical nozzle i=-(1+ cosa) and calculate the nozzle angle correction factor for a nozzle whose divergence hal-fangle is 13 (hint: assume that all the mass flow originates at the apex of the cone.

Answers: 3

Answer

You know the right answer?

A) Calculate the cross-sectional area, in mm², of a piece of copper wire, 40 m in length
and ha...

Questions