山东青岛市黄岛区2020届高三物理上学期期末试题(PDF版含答案)
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高三物理答案 第 1页(共 3页) 2019-2020 学年度第一学期第二学段模块检测 高三物理答案及评分标准 一、单项选择题:本大题共 8 小题,每小题 3 分,共 24 分。 1——5:A、D、D、C、B;6——8:C、B、D 二、多项选择题:本大题共 4 小题,每小题 4 分,共 16 分,选不全得 2 分,有选错得 0 分。 9.ABCD、10.AC、11.BD、12.BC 三、非选择题。 13.(1)BC (3 分)说明:选不全得 1 分;(2)2.0 (3 分)。 14.(1)I-t 图象与坐标轴围成的面积就是总的电荷量 (2 分)、2.4×10-3~2.6×10-3C (2 分)、 (2)3.0×10-4~3.3×10-4F(2 分);(3)不变(2 分)。 15.(8 分) (1) 根据理想气体状态方程的分列式,得 p0V+p0nV′=4p0V···························································································································(2 分) 其中 V=5.7×10-3m3-4.2×10-3m3=1.5×10-3m3····················································· (1 分) V′=0.25×10-3m3····························································································· (1 分) 代入数值,解得 n=18····················································································· (1 分) (2)当空气完全充满储液桶后,如果空气压强仍然大于标准大气压,则药液可以全部喷出. 由于温度不变,根据玻意耳定律 p1V1=p2V2,得 0 3 4 5.7 10 p Vp   ······························································································· (2 分) 解得 p=1.053p0>p0···········································································································································(1 分) 所以药液可以全部喷出。 16.(11 分) (1) (1)由题图乙可知:mgsin 37°=12 N·································································(2 分) 解得 m=2 kg··································································································(1 分) (2)题图乙中图线与横轴所围成的面积表示力 F 所做的功: WF= 1 1-12 0.06 + 20 16-6 =0.642 2    ( ) ······························································(2 分)高三物理答案 第 2页(共 3页) 从 A 点 B 点的过程中由能量守恒可得: 0sin37 2.56JP FE W mgx   ············································································ (2 分) (3)撤去力 F,设物体返回至 A 点时速度大小为 v0, 从 A 出发两次返回 A 处的过程应用动能定理:W= 2 0 1 2 mv ········································(2 分) 解得:v0=0.8 m/s····························································································(2 分) 17. (13 分) (1)电荷的运动轨迹如右图所示,设电荷在磁场中的轨迹半径为 R: 由几何关系可知: 0sin30R R L  ······························(1 分) 解得: 3 LR  ……………………………………………………(1 分) 洛伦兹力提供向心力,由牛顿第二定律得: 2 0 0 mvBqv R  ···································································································(2 分) 解得磁感应强度: 03mvB qL  ············································································· (1 分) (2)若电子能进入电场后, 从 C 点射入电场的电子做类似平抛运动,设穿出电场时速度的偏 转角为θ,则: 22 1=3 2 qEL tm g ··············································································(2 分) 0 tan =2 qE tm v   ······························································································· (2 分) 由于电场中偏转位移的夹角α的正切值 1tan = tan =2 OD OC l l   ········································(1 分) 解得:lOD= 2 3 L ······························································································· (1 分) 之后电荷做匀速直线运动达到荧光屏上的 Q 点 2 2( )tan3 3PQl L L L   ·················································································· (2 分) 18.(14 分) (1)ab 边产生电动势:E=BLv0·············································································································· (2 分)高三物理答案 第 3页(共 3页) 因此 0 3 4abU Blv ···························································································· (1 分) (2) abF BIl ································································································· (1 分) 0BlvI R  ······································································································· (1 分) 对火箭主体受力分析可得: Fab-mg=ma··············································································· (2 分) 解得: 2 2 0B l va gmR   ······················································································ (1 分) (3)设下落 t 时间内火箭下落的高度为 h,对火箭主体由动量定理: mgt-F - abt=0-mv0··········································································································································· (2 分) 即 mgt- 2 2B L h R =0-mv0 化简得 h= 0 2 2 ( )mR v gt B L  ···················································································· (1 分) 根据能量守恒定律,产生的电能为: E= 2 0 1 2mgh mv ····························································································· (2 分) 代入数据可得: 2 20 02 2 ( ) 1 2 m gR v gtE mv B L   ···························································(1 分)

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