在光滑的直角坐標(biāo)系xOy水平面的第一象限內(nèi)分布有磁感應(yīng)強(qiáng)度的大小為B、方向垂直紙面向內(nèi)的勻強(qiáng)磁場。在xOy平面內(nèi)放置一單匝矩形導(dǎo)線框abcd,線框邊長ab = L、ad = 2L,電阻為R,質(zhì)量為m。t = 0時,bc邊與Oy軸重合,線框以初速度υ0沿x軸正方向進(jìn)入磁場,不計空氣阻力。
(1)求cd邊剛進(jìn)入磁場時,c、d間的電勢差U
(2)試討論求線框最終速度大小及對應(yīng)的初速度υ0的范圍;

(3)求線框進(jìn)入磁場的過程中通過導(dǎo)線橫截面的電荷量q大;
【猜題理由】電磁感應(yīng)問題是近年江蘇高考的必考的內(nèi)容,往年高考中沒有同時考查瞬時感應(yīng)電動勢和平均感應(yīng)電動勢,2010年高考很可能以討論運(yùn)動狀態(tài)、微積分等難度設(shè)置高門檻作為壓軸題,以法拉第電磁感應(yīng)定律、閉合電路歐姆定律、部分電路歐姆定律、動量定理為規(guī)律命題。

【標(biāo)準(zhǔn)解答】⑴線框cd邊剛進(jìn)入磁場時,切割磁感線的速度為υ0,線框中電動勢大小  

E = B Lυ0············································································································· ①(1分)

導(dǎo)線中的電流大小
I =  ············································································································· ②(1分)

cd間的電勢差
U = I · R = BLυ0  ······················································································· ③(1分)

(2)線框進(jìn)入磁場的過程中速度為υ時,受到的安培力
F = BiL = B L = ········································································· ④(1分)
tt + Δt時間內(nèi),由動量定理
     FΔtmΔυ··································································································· ⑤(1分)
求和得  υt =mΔυ
x < 2L時,線框速度為零,以后保持靜止?fàn)顟B(tài),則
 ∑△x = x = 0 ········································································· ⑥(1分)
解得   x =   ························································································ ⑦(1分)
即線框的初速度υ0滿足 0 < υ0 < 時,線框最終速度為零。  ················· ⑧(1分)
x ≥ 2L時,線框速度不為零,而速度υ沿x軸正方向做勻速直線運(yùn)動,則
∑△x =  · 2L = 0 – mυ································································· ⑨(1分)
υ = υ0 ···························································································· ⑩(1分)
即線框的初速度υ0滿足υ0 時,線框最終速度大小為υ0 。 (11)(1分)
(3)導(dǎo)線框的平均感應(yīng)電動勢為
=   ··································································································· (12)(1分)

導(dǎo)線框中的電流為
 = ······································································································· (13)(1分)
線框進(jìn)入磁場的過程中通過導(dǎo)線橫截面的電荷量
q = t ····································································································· (14)(1分)
q =
當(dāng) 0 < υ0 < 時,△Ф= B · Lx = ,得q = ···················· (15)(1分)
當(dāng)υ0 時,△Ф= B · 2L2,得  q = ······································· (16)(1分)

【思維點拔】對于(1)、(2)兩問要搞清瞬時感應(yīng)電動勢和平均感應(yīng)電動勢的區(qū)別,cd間的電勢差U是指作為電源的cd邊的端電壓,求通過導(dǎo)線橫截面的電荷量時要用平均感應(yīng)電動勢來解。本題難點在于要知道線框最終可能停止運(yùn)動,也可能勻速運(yùn)動,所以要進(jìn)行討論。進(jìn)入磁場的過程,受到的安培力是變力,無法用動力學(xué)觀點直接求解,可以用動量定理結(jié)合微積分求出位移,然后算出對應(yīng)的電荷量。

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