Pfry In Figure t) 17 .1, s;cs 3 F ¿nol Reu¿eø (ete.Lracal) Solo{¿ans Q = 6.7 nC and all other quantities are exact. What is the magnitude of the electrical force on the charge Q? Fisure 17.1. vLx v^t tolcm i c¡ï,' = = 11 6fi+ icm A) 1.2 x 10-3 N F¡r.t' E - Ê S r'nce tr D) 1.0 x 10-3 N B) 2.1 x 10-3 kk,e I Yì. arrJ 11= ?-- È Fl 8'= 8 ,ß g.ti 1c. rroq Nm/.2(z* t o-tq) ( 6.7 v td l'¿ 1'r - (.ol m ) z anents ar ç l'zosr ,í3N <os;oo arrd Lhus c¿t'lce ( eaeh of À er Th< Y e-omF onents adJ 3N sinØ' Fne( 5 2 t l.ZoSttÒ The. x c. or. P (in+Y Z.lttÐ-3N Z) A spherical conductor with radius 2.0 mm carries 6.0 a charge anJ l.us ,rl 3l.l - l.2o5rrõ3NcosØ' d d neett on) of 7.0 ¡rC. What is the electrical field strength at mm from the center of the conductor? A) 780 x 109 N/C B) 88 x rO9 N/C Q 1.7 x 109 D) 25 x 109 N/C Stnce Lh. <ftarge ìs an q >pfierû.a I c, 6n Jao{or, t h< a"Éa.a I c.harge ès uni lormly J¿s'û.nååateJ On É/r e. sttt' fo. = aÎ E l¿ef J ouL stde å< Thuç L' Q kla = T r þ1 Nmt/c" (7.oxti¿c Th< E {¿rtJ lrom d usl.te,re, r= (''Ômm = I I,aq taþ.n ai la.aêe d ( 'ÒÔG>t¿t töq Nl< Unit; same' a's V/^ l,?5t .oo G^\' ùs everJ øhere d tre.t<¿ yot nt <ha"Xe- ¡asLt,¿ue I auta) FIGURE 2O_4 +6.t0 ¡rC +6.00 ¡rC 200m +6.00 ¡rC 2'UÛ m +6 00 ¡rC equal point charges of magnitude 6.00 ¡rC are placed at the corners of a square 2.00 m on each side, as shown in Figure 20-4. What is the electric potential of these charges at the center of this square? J)four A) 61.0 kV B) 306 kV D) 38.2 kV C) 153 kV E)76.4kY LLe e leetri'e lolent'¿ol (va lt"g. ) 4{ ú- 1.. ts d.àstartoe d l"o^ e.ac.h o{ È he ¡adnL o øh¿¿h lou, *horyes. The. r¿1ht anXle *-rèa'^7la X t ves dt+ dt= ?rn? Ò 24"= 'l^' We. tt'ra^{ v=k(+,++'.+.ßnt = ?. - l-j -- Ev \ d=IVm 14 ) =d arrd Er= 6-= 6= = 6"= 6'0 x t;c< 5o 1/. f x g-lq rþ1 Nlf , G.O * ,itC ?1 Y-,1 = Vo= l,S3 , lo / s 3 kr/ ty' 2_ ilZ^ ,() Three capacitors of equal capacitance are arranged as shown in Figure 18.9. The voltage drop across C1 is 10.0 V. \Alhat is the voltage drop across C3? Figure 18.9 q, ( V, Q¡ C1 Q¡ La ct¿ vz ) v3 ( C2 b A) 20v c) 10.0v B) 30V D) 40V C, a"d C. a.t/e- ì n ser¿€Ð Li'.¡ hou< 5à¡ce T j' e d¡ = Q= L he. s,a,m e, c-harg e , Bul <' c z (Arrun) C,,V= CtV' T-hus Sa Vt=V.= |O'OV W< see tha( [/ab= V3 = V, + V7 Thus Va = l}.Otl + t\.oV = ZÔ.OV c? 5) A wire is connected to a 1.5 Vbattery, and a current of the diameter of the wire? (The resistivity of metal is2.24x 10-8 O . -.) f .O m length of metal B)2.2¡m A) 2a pm + 1¡-- T Thus D ? anÅ 4e -ffi Dïo,'eter = D = L A=Ir" þ= -+ 1"2. I D) 12 ¡m e- Acts a'' a' rcs ista", L R.fi mA flows through it. What is C) 6.0pm nler rtal resis t¿¡¿ce For fe.t¿star, t/= T'R + i.orA{ But he- qt ì r 8.0 tl 7. 3 Q= e. "J' Y= ---l.sv 3A I ?.orto É, t( = l8 7, S-l2- 1Æ .mrl .O r¡' tlO o S ¿he olQ _tz ttisrn = 1,23 = t2,3 rA 6) A proton with a speed oÍ 2.0 x 105 m/s falls through a potential difference V and thereby increases its speed to 4.0 x 105 m/s. Through what potential difference did the proton fall? A) oV rt 210V B) g 100V el dn¿ k¿¡e{-¿. eneîl) Conser vaL¿on o1 e b, tlu E) 1000v D) 630V 840V rî,ca tÅat Va= lÅs+ 115 I Fotent¿a( Kr- l?" enert) Uo- Ua Ks- l(a= E(U^- v¡) t?or a_ IVrot on : A V: Va-Vr= k f k" AV= ¡rfot t.cDïs = I^(-r'- T *,;uu¡l(+o r oinls)' e: Tl.c ê l¿. td l4"\ - L2.o r tfrnl t )" ] G3O V .60 2 ttôrl: da eDn an4. pasit¿',¿e /t square plates that have dimensions 1.0 cm by 1.0 cm. If the plates are separated by 1.0 mrrç and the space between them is filled with teflorç what is the capacitance? (The dielectric constant for teflon is 2.1.) 'f) A parallet-plate capacitor consists of two parallel, ' B) 2.1pF Q O.aa pF D) 0.88 pF The st'eng Lh (Qaya.i(anee ) o1 o po*lk('pl"t. K €'4. ¿3 ul¿+,h unít3 Faral IFJ e = Qa'Fo.c'd( o ¿ r tlt. d¿electr¿c c-onstar¡! ,{ tL' ,lfialerèal betutoe" the parollel plott' Ld¿o'enstart /ess) ê.o å s the e-lect r¿<- consl.artt : 8'85( r td'go{ th' ybtes A î-s LLc o-îed o{ ú K ùs d. is the ¡lat'seParat'tan J¿s (qr¿c < (ot^\' -t2 Z.l , I8s.(rtl''17Nn'' I,ixro l-^ = = l.dI ?F .oOlm Noê,. a^ l,,ln¿Ls LeJ= [vl= l*r|= tã,] tt] = ["] = [A. ,l 'l 8) Two point drarges of +5.00 ¡rC and +8.00 ¡rC are placed inside a cube of edge length 0.100 m. The net electric flux due to these charges is given by A) 3.80 x 106 Nm2/C B) 0.450 g 0.340 ¡¡¡2¡ç " 196 ,< 166 ¡rn27C D) 1 .47 x 106 Nm2/C E) 4.20 x 106 Nm2/C Gauss' La,r, Qenc.lared .JA lE,o 4 -al €too., = S.or,o'ec. + t.ö.rô-¿< t" Qt/N.^. 8.85V t tf l.¿l7tto 5 g m ^/c ? Figure 19.15 I a 20a a + o e) In Figure 19.15, the current of the circuit in the A) 4.s A B) e.5 A 8 ohm resistor is 0.54. \n/hat is the current in the 2 ohm resistor? c) 6.4 A D)2.2s A E) 0.7s A rcsist¿r ,ls, r{ cr d¿S{er.,,t va(ue., I ær¿ll uLte fahe r€s è st or Jolu< as a. shL Écr ¿Frt ø, Len uor¿Lr y Lhe e-urrqtt Llt"o ngh t lucL reai,stor o t- tLe vollaS < a,e.r¿r5s Lha,l resLstar. Thus, far eramyle, L8 ås the. ettvrent LhrouJh the. €r¿ l-€sùstorLIV C^oàtt<n t-ha1- Ie= IA + Vs= Lar gs¿ = ftte 8A, ø.rJlLJ¿ r€sLsLars are. Ln pavatkl, t L* e-èrt m on V o[Ldí e + Vø= Va = ./ V. Thus Íø= +A Írc a,tdf,g sht^ La l¿u. T.o + T.o= io.*a= $a t5t/ Thus Vro= ^ÒrL"fA= Vgot= VzoçVA= tSVrlV =t1V T h e. baLle+g Vo lLag e, is Lha s Vø^ ùs nuol L" Vz (anÅ v.) f hus I,z -- tqv 9. rA Since. êa.ah ffi= ZJL 6 lO) Each of the resistors in the circuit shown in Figure 19.1 has a resistance of 180.0 O. \A/hat is the equivalent resistance of the circuit? Figure 19.1 <? Rr R.J A) 180.0 O Rz ^^¿, I nu) c) B) 450.0 C) R3 d."e. Ln po ro I ¿30&. + ¿ |lel €¿lL D)720.04 540.0 c) z |SOJ¿ => R=z = Qotz- , l'?zs az.Å R,¡ are Llren tn serèes. Thus ôve.raf Ic¿r.¿dt R.B=R,+Rzz*Rv R, = lSot¿ Þ1Ò-r| t lgo J¿ = l5o tzI l) R d"rrlce experiences a voltage drop of 5.0 V across it while a current of 10.0 mA flows through it. How much power does it dissipate? A) 500 pW c) 2.5kw B) 50 mW != lO.On\ þ.Am A t 5.OV 54. ô mV) 7 D) 0.50 kw Figure t4) t f'u 19.'1.8a --à-ï S + 0.10 20 FF Mo Initially, for the circuit shown, the switch S is open and the capacitor is uncharged.The switch S is closed at time t = 0. In Figure 19.18a, when the time t is equal to 8.0 s, the charge on the capacitor, io FC, is closest to: B) 1200 1e00 c) 1400 E) 1600 D) e40 '+ Vn=-Vc+t' Vn=IR, f = Ë and /"= 8*Ê -+ t?=+(a-c€,) a-c€l = -å* At t=or Q=c> ¿l I ht*s Q= A = ô. lo r A o eo¡ftt"t = c€' + Ae-É/<c So c)=QÊ+A + A=-C€. c-€ ( I - e-tlec ) x 20 ¿t to -'F= zS, å= ??l= e = Cg ( l - e-t ) = o.ea z C.€-,ì-. c€ RC , a c. loø-ç2- G?3C€ = ^ottO'GFt6OV= ¿/ l2Ôo ./ c. r2) A 7.0 O resistor is connected across the terminals of a 10.0 V battery. If 0.50 A of current flows, what is the intemal resistance of the c)27.0A A) 20 C) f I t= IDV r+ R= Cbret" O -lov +Ir +IR =o Ad¿ Potentä[ J f D) -10.8 O I = 0.54 r+ 7¡r fa R = lÔV. T lov R I f= IOV -71¿= 13r¿ ,5A I Figure 19.16 o 4a 12Y 13) fn Figure 19.16,whatis the power dissipated in the 2 ohm resistance in the circuit? A) 6.67 W c) B) s.33 W 3.56 W E) 2.67 W D) 8.0W CamÚ¿n. al( re.sistancc:. (o 4 sèn7 le ouerall %oèuale4{ Res¿sf.a^c-e i z.l¿ ll¿ sn' ,l¿ 3J2' 4{Vté CoJL 2fz - CJL 2tz Í4, I r1 '4us GJ7 GfL I-- = ôu<rall R e6 H=zA I?V a.rass 1f¿- = 1tZx ZA -- I V +he s€rc'€s Th¿rt lea,¡es tZV-AV = lV ^eross eomb¡t at-ion o{ 2!¿ qreJ Then work bo.k waré: Lhe- s€r¿a-s c.Òm V b¿not à¿ n Th4 s€rè<s c-orn b¿n"t¿ ?;::"':;: :Î:; *;iï";"iJ^=ff. ? te) ùs The y Ou)er P= T zl< -- ( Ln z þ- +A the 2n- is t+ 3-5a v) w ff q ( anl ot'o tÄe
© Copyright 2024