|
Title: How much energy is necessary to place three +2.0-µC point charges at the vertices of an equilateral ... Post by: Chery on Dec 4, 2016 How much energy is necessary to place three +2.0-µC point charges at the vertices of an equilateral triangle of side 2.0 cm if they started out extremely far away? (k = 1/4πε0 = 9.0 × 109 N ∙ m2/C2)
A) 4.5 J B) 5.4 J C) 6.7 J D) 7.6 J Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: slicealemon on Dec 4, 2016 Content hidden
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an equilateral ... Post by: Chery on Jan 13, 2017 Looked all over the internet for this, thank you for answering correctly
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: gyuyun kim on Mar 24, 2020 ......
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: thisisridonk on Mar 26, 2020 i hate this so much, im gonna get my answer and never return
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Jessica Burtell on Apr 2, 2020 -
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: leemer on Apr 2, 2020 thank you
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Kseniya Zubilova on Apr 8, 2020 thank you!!
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: satsuma on Apr 19, 2020 thank you!
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Will Brownie on Apr 20, 2020 Thank you
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Sergio Aller Rodríguez on May 20, 2020 thanks
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: notagoodidea on Jun 18, 2020 thanks
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Mando on Dec 15, 2020 Thanks
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: M Loyall on Dec 15, 2020 thanks
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: ahsdgasf on Dec 15, 2020 -
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Bradley Finley on Dec 15, 2020 Thank you!
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: dumb ass on Dec 15, 2020 thx
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Iqra Nadia Malik on Jan 9, 2021 thank u
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Tae bae on Feb 2, 2021 thank vyouoty
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: M5 on Feb 3, 2021 Thanks
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: NINJAZ4CH on Feb 8, 2021 ....
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Aiden1 on Feb 21, 2021 thxxxxxxx
Title: Re: How much energy is necessary to place three +2.0-µC point charges at the vertices of an ... Post by: Kay raksrithong on May 4, 2021 Thanks
|