The wire shown in the figure (figure 1) is infinitely long and carries a current i.

The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer

The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer
The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of just one جا 2 Р component a determine the magnitude associated with magnetized area that existing creates at point P. Express your response with regards to the factors we, a, and proper constants. ΟΙ ΑΣΦ . ? B = publish Request Solution role B discover the course associated with magnetized area that existing creates at point P. O out from the web page to the web page publish Request Answer

The magnitude associated with
magnetized area at point P is provided by Biot-Savart law.right here one
cable add effortlessly towards the magnetized field.The course of
Magnetized area at point p is provided by Maxwell’s cork screw guideline,in
this instance it really is out from the web page.
The magnitude associated with magnetized area that euvrent creates at point is are determined from Biot – Savant legislation. Based on this legislation the magnetized area at any point because a present factor i di is provided by de = Mo we dix xx 0 in which Ř may be the vector from existing factor to the level of observance therefore the continual it Mo = An X 107 N/A is known as the permeability of free-space, P (2,4, 2) À (2,4″, 2″) 471 R3 we di ( REBR Figgi a present factor and p may be the point of observance 21 FSX 0001 of 7 00 01 & P OXFSS
The course associated with area dß is perpendiclan towards the jet containing the wive therefore the point p and right here it really is to the web page 11 in line with the concept of superposition complete area B as a result of the whole range existing we is provided by 8 where in fact the integration has ended the complete wwvient мо 471 ( we dix arrond wort R3 course. Magnetized area for very long right existing carrying cable: 20 B dil Oks Х l O2 XP 13 1 ou okay Fig-2 why don’t we start thinking about a lengthy – right cable AB holding curren we as shown in Fig.-2. Assume we’re to obtain the magnetized area at any point p at any point a distance from cable. Let’s start thinking about a little factor di at a distanie we from o, the root of the perpendicular from point p in the cable. Relating To Biot-Savarh taw the magnetized area at a due for this factor is Abd B-Mo We dix alb АЛ R3
Demonstrably do things to the jet associated with report that is real the area created by all existing elements. For this reason, complete magnetized area at p as a result of the entire cable is, gib j olu : today from fig-2 foldiriladi roentgen sing = die sin (90°+0) IdTXR Mo 45 R3 [:’4=90+0] – dIR cos o or toda esta and la = tano & laa tano therefore, di= a seco do. Additionally, & -coso a-coso roentgen roentgen = a seed at a seco.coso a seco do 471 a see o 18)= Mol -019 02 36 Mol ana coso do 01 Mol. (sin Ozt sina) 2 АТИ website 30 31 in which upon as well as on will be the values associated with perspective & equivalent towards the end things associated with cable. is is = for an infinitely long-wire, or Q = 7/2 notaitot har pl = 6 do we 2 – Mol. We reveal mon tromol The course of B can easily be discovered with Manwell’s cork screw Bule. Based on this aria 2rait rests
when we drive a right-handed cork screw over the course of existing then your course of rotation associated with flash provides the divection associated with magnetized area. tohoto to lo sconti wborn A at the purpose of observance lies in the prolonged imaginary percentage of the cable, after that 01 = 02 = 90° and O, and O2 both tend to be bad. We (singo-singo)=0 (A) 40 a I today as provided in concern cables tend to be infinitely very long and holds a present I. why don’t we identify all of them to comprehend decarly. Today, as talked about above P point lying in the prolonged element of AB cable. The magnetized area at point p because A-B cable is o. Today because BC cable, O2=0, 0 = 90 From egn (2), B = Mo We (or singo) Ата Mol 4Tla
cob the worthiness of magnetized area at point pis MOI 4ria from Manwell. cork serew guideline we realize that the course associated with magnetized area that existing creates at point may be out of the web page. bobrotys we no il moitovreado to triod art 010 dl w to writo wie w diodo O Curria-opria) we ON
The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer The cable shown in figure (Figure 1)is infinitely very long and holds a present I. Figure < 1 of 1 جا 2 Р 
Part A Calculate the magnitude of the magnetic field that this current produces at point P. Express your answer in terms of the variables I, a, and appropriate constants. ΟΙ ΑΣΦ . ? B = Submit Request Answer Part B Find the direction of the magnetic field that this current produces at point P. O out of the page into the page Submit Request Answer

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