Concept Map Given Potential B Determine Velocity E Jx Ey Rh Note Conductive Box Corners Are Assumed Split S 1 (35.19 KiB) Viewed 34 times
Concept Map Given Potential B Determine Velocity E Jx Ey Rh Note Conductive Box Corners Are Assumed Split S 2 (23.6 KiB) Viewed 34 times
Concept Map: Given potential & B>, determine: velocity, E, Jx. Ey>, Rh. Note: conductive box corners are assumed split so sides of boxes below are isolated (not connected) To Do: 1) Consider each case 1 of 4 cases below. Case (1) Direction positive charges would move...velocity. ← Gradient of potential, → Direction electrons would move...velocity, →→ 2 Jx for each case. (direction positive chg moves) Indicate where + or-would plié up. Ey. Rh V applied Case (2) Direction positive charges would move...velocity Gradient of potential Direction electrons would move...velocity Jx for each case. Indicate where + or-would plié up. Ey. Rh Case (3) Direction positive charges would move....velocity Gradient of potential Direction electrons would move...velocity Jx for each case. Indicate where + or-would plié up. Ey. Rh Ⓡ Ⓒ B V applied 1 OB V applied H Ⓒ V applied EEE3394 Sc16 Mod 2 Hall WS 1 Case (4) Direction positive charges would move...velocity Gradient of potential Direction electrons would move...velocity Jx for each case. Indicate where+or-would plié up. Ey. Rh
a) For case 1 and 4.. if V12 <0 and the material is a semiconductor what is the main charge type repectively in 1)_ in 4) b) For case 1, if the charge is negative and negative charges pile up next to connection 1 (at the top) which direction should the magnetic field be indicating. c) For case 2 and 3 what is the polarity of V12 ( greater or less than 0) if the charges in the semiconductor are negative?
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