KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application

KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application

This paper parades the effectiveness of conductive yarn resistor instead of carbon resistor by verifying the Kirchhoff’s voltage (KVL) & current (KCL) law. This research work enlightens about the sustainability of e-textiles on account of presenting characteristics of thi...

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Bibliographic Details
Main Authors: Redwanul Hasan, Minhazul Islam, Sazid Hossain
Format: Article
Language:English
Published: Pensoft Publishers 2020-12-01
Series:Modern Electronic Materials
Online Access:https://moem.pensoft.net/article/61435/download/pdf/
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spelling doaj-fdf48a5e6201422db33764511b0607032021-04-05T14:59:56ZengPensoft PublishersModern Electronic Materials2452-17792020-12-016413313910.3897/j.moem.6.4.6143561435KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles applicationRedwanul Hasan0Minhazul Islam1Sazid Hossain2Bangladesh University of TextilesBangladesh University of TextilesBangladesh University of Textiles This paper parades the effectiveness of conductive yarn resistor instead of carbon resistor by verifying the Kirchhoff’s voltage (KVL) & current (KCL) law. This research work enlightens about the sustainability of e-textiles on account of presenting characteristics of this conductive yarn resistor. Resistor is one of the most useful materials in the electrical laboratories. Generally resistor is made by carbon. Using carbon resistor is pernicious for our environment, society & cost. It is known that sustainability is the concerned area at present. Sustainable e-textile is one of the major need in material science .This quest indicates that point to boggle sustainable e-textile by inventing conductive yarn resistor verifying with most orthodox theory of Kirchhoff’s voltage & current laws. KVL and KCL are the most prominent theory in electrical science. Summation of KVL and KCL will be zero in any closed loop in this theory. The summation of KVL is also zero here and summation of KCL is also zero here. It can justify Kirchoff’s KVL & KCL theory. https://moem.pensoft.net/article/61435/download/pdf/
collection DOAJ
language English
format Article
sources DOAJ
author Redwanul Hasan
Minhazul Islam
Sazid Hossain
spellingShingle Redwanul Hasan
Minhazul Islam
Sazid Hossain
KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application
Modern Electronic Materials
author_facet Redwanul Hasan
Minhazul Islam
Sazid Hossain
author_sort Redwanul Hasan
title KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application
title_short KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application
title_full KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application
title_fullStr KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application
title_full_unstemmed KVL and KCL verification by cotton conductive yarn resistor instead of carbon resistor fixation with Ag nanoparticles for sustainable e-textiles application
title_sort kvl and kcl verification by cotton conductive yarn resistor instead of carbon resistor fixation with ag nanoparticles for sustainable e-textiles application
publisher Pensoft Publishers
series Modern Electronic Materials
issn 2452-1779
publishDate 2020-12-01
description This paper parades the effectiveness of conductive yarn resistor instead of carbon resistor by verifying the Kirchhoff’s voltage (KVL) & current (KCL) law. This research work enlightens about the sustainability of e-textiles on account of presenting characteristics of this conductive yarn resistor. Resistor is one of the most useful materials in the electrical laboratories. Generally resistor is made by carbon. Using carbon resistor is pernicious for our environment, society & cost. It is known that sustainability is the concerned area at present. Sustainable e-textile is one of the major need in material science .This quest indicates that point to boggle sustainable e-textile by inventing conductive yarn resistor verifying with most orthodox theory of Kirchhoff’s voltage & current laws. KVL and KCL are the most prominent theory in electrical science. Summation of KVL and KCL will be zero in any closed loop in this theory. The summation of KVL is also zero here and summation of KCL is also zero here. It can justify Kirchoff’s KVL & KCL theory.
url https://moem.pensoft.net/article/61435/download/pdf/
work_keys_str_mv AT redwanulhasan kvlandkclverificationbycottonconductiveyarnresistorinsteadofcarbonresistorfixationwithagnanoparticlesforsustainableetextilesapplication
AT minhazulislam kvlandkclverificationbycottonconductiveyarnresistorinsteadofcarbonresistorfixationwithagnanoparticlesforsustainableetextilesapplication
AT sazidhossain kvlandkclverificationbycottonconductiveyarnresistorinsteadofcarbonresistorfixationwithagnanoparticlesforsustainableetextilesapplication
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