题目内容
如图所示,匀强电场方向竖直向上,匀强磁场方向水平且垂直纸面向里,有两个带电小球a和b,a恰能在垂直于磁场方向的竖直平面内做半径r=0.8 m的匀速圆周运动,b恰能以v=2 m/s的水平速度在垂直于磁场方向的竖直平面内向右做匀速直线运动.小球a、b质量ma=10 g,mb=40 g,电荷量qa=1×10-2C,qb= 2×10-2C,g=10m/s2。求:
(1)小球a和b分别带什么电?电场强度E与磁感应强度B的大小?
(2)小球a做匀速周周运动绕行方向是顺时针还是逆时针?速度大小va是多大?
(3)设小球b的运动轨迹与小球a的运动轨迹的最低点相切,当小球a运动到最低点即切点时小球b也同时运动到切点,a、b相碰后合为一体,设为c,在相碰结束的瞬间,c的加速度ac=?
(1)小球a在互相垂直的匀强电场和匀强磁场中做匀速圆周运动,电场力和重力的合力为零,电场力方向向上,所以小球a带正电,且有
mag=qaE··································································①
E=10 N /C································································②
小球b做匀速直线运动,合力为零,带正电,且有
mbg=qbvB+qbE·····························································③
B=5T·····································································④
(2)小球a做匀速圆周运动绕行方向是逆时针方向。
由
得
······························································⑤
va=4 m /s·································································⑥
(3)a、b相碰前速度方向相同,设碰后的共同速度为vc,则
ma va+mbv=(ma+mb) vc······················································⑦
vc=2.4 m / s································································⑧
由牛顿第二定律得
mcac=qcE+qcvcB – meg······················································⑨
mc=ma+mb
qc=(qa+qb)
解得ac=3.2 m / s2··························································⑩
评分标准:本题满分18分。其中判断a、b带电性质各1分,a绕行方向1分,①式2分,②式1分,③式2分,④式1分,⑤式2分,⑥式1分,⑦式2分,⑧式1分,⑨式2分,⑩式1分。
解析:略
在某空间存在着水平向右的匀强电场和垂直于纸面向里的匀强磁场,如图所示,一段光滑且绝缘的圆弧轨道AC固定在纸面内,其圆心为O点,半径R=1.8m,OA连线在竖直方向上,AC弧对应的圆心角θ=37°.今有一质量m=3.6×10-4 kg、电荷量q=+9.0×10-4 C的带电小球(可视为质点),以v0=4.0m/s的初速度沿水平方向从A点射入圆弧轨道内,一段时间后从C点离开,小球离开C点后做匀速直线运动.已知重力加速度g=10m/s2,sin37°=0.6,cos37°=0.8,不计空气阻力,求:
如图所示,在竖直方上的匀强电场中,一根不可伸长的绝缘细绳的一端系着一个带电小球,另一端固定于O点,小球在竖直平面内做匀速圆周运动,最高点为a,最低点为b.不计空气阻力,则( )| A、小球一定带正电 | B、电场力跟重力平衡 | C、小球在从a点运动到b点的过程中,电势能一定增大 | D、小球在运动过程中机械能守恒 |
(3)粒子在电、磁场中运动的总时间。