2011高考物理热点预测专题12·高考物理新题型探究
一、选择题(本题包括8个小题。每小题给出的四个选项中,有的只有一个选项正确,有的有多个选项正确,全部选对的得6分,选对但不全的得3分,有选错得得0分。共48分)
![](https://wkrtcs.bdimg.com/rtcs/image?w=138&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"138","h":"186","dataType":"png","c":"word/media/image1.png","imgOriW":138,"imgOriH":186})
1.某科技馆中有一个展品,该展品放在较暗处,有一个不断均匀滴水的龙头(刚滴出的水滴速度为零).在平行光源的照射下,只要耐心地缓慢调节水滴下落的时间间隔,在适当的情况下,参观者可以观察到一种奇特的现象:水滴好像都静止在各自固定的位置不动(如图1中A 、B 、C 、D 所示,刻度尺上数值的单位是cm , g=10m / s2 ),要想出现这一现象,所用光源应满足的条件是( )
A.持续发光的光源
B.间歇发光,间隔时间为0.14s
C.间歇发光,间隔时间为0.20s
D.间歇发光,间隔时间为1.40s
2.一物体做加速直线运动,依次通过A、B、C三点,AB=BC。物体在AB段加速度为a1,在BC段加速度为a2,且物体在B点的速度为![](https://wkrtcs.bdimg.com/rtcs/image?w=83&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"83","h":"43","dataType":"gif","c":"word/media/image2.png"})
,则( )
A.a1> a2 B.a1= a2 C.a1< a2 D.不能确定
3. 如图2所示,晾晒衣服的绳子两端分别固定在两根竖直杆上的A、B两点,绳子的质量及绳与衣架挂钩间摩擦均忽略不计,衣服处于静止状态。如果保持绳子A端、B端在杆上位置不变,将右侧杆平移到虚线位置(A、B两绳仍为绷直状态),稳定后衣服仍处于静止状态。则( )
A.A绳的拉力变大
![](https://wkrtcs.bdimg.com/rtcs/image?w=186.66666666667&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"186.66666666667","h":"126.66666666667","dataType":"gif","c":"word/media/image3.png"})
B.B绳的拉力变大
C.绳对挂钩拉力的合力变小
D.绳对挂钩拉力的合力不变
![](https://wkrtcs.bdimg.com/rtcs/image?w=224&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"224","h":"118","dataType":"png","c":"word/media/image4.png","imgOriW":299,"imgOriH":157})
4. 在竖直方向的匀强磁场中,水平放置一个面积不变的单匝金属圆线圈,规定线圈中感应电流的正方向如图7所示,取线圈中磁场B的方向向上为正,当磁场中的磁感应强度随时间t如图8所示变化时,图9中的四图中正确表示线圈中感应电流变化的是( )
![](https://wkrtcs.bdimg.com/rtcs/image?w=543&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"543","h":"171","dataType":"png","c":"word/media/image5.png","imgOriW":584,"imgOriH":182})
5.某实验小组的同学在电梯的天花板上固定一根弹簧秤,使其测量挂钩向下,并在钩上悬挂一个重为10N 的钩码.弹簧秤弹力随时间变化的规律可通过一传感器直接得出,如图4所示.则下列分析正确的是( )
A.从时刻t1到t2,钩码处于失重状态
B.从时刻t3到t4,钩码处于超重状态
C.电梯可能开始在15 楼,先加速向下,接着匀速向下,再减速向下,最后停在1 楼
D.电梯可能开始在1 楼,先加速向上,接着匀速向上,再减速向上,最后停在15 楼
![](https://wkrtcs.bdimg.com/rtcs/image?w=232&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"232","h":"158","dataType":"png","c":"word/media/image6.png","imgOriW":232,"imgOriH":158})
6.如图所示,纵坐标表示两个分子间引力、斥力的大小,横坐标表示两个分子间的距离,图中两条曲线分别表示两分子间引力、斥力的大小随分子间距离的变化关系,e为两曲线的交点,则下列说法正确的是( )
A.ab为斥力曲线,cd为引力曲线,e点横坐标的数量级为10-10m
B. ab为引力曲线,cd为斥力曲线,e点横坐标的数量级为10-10m
C.若两个分子间距离大于e点的横坐标,则分子间作用力表现为斥力
D.若两个分子间距离越来越大,则分子势能越来越大
![](https://wkrtcs.bdimg.com/rtcs/image?w=188&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"188","h":"184","dataType":"png","c":"word/media/image7.png","imgOriW":188,"imgOriH":184})
7. 如图所示,一轻弹簧固定在一竖直放置的圆桶底部,桶壁光滑,现在从桶口自由释放一小球,小球直径略小于桶的直径,小球下落一段距离后落在弹簧上,当小球将弹簧压缩到最低点时球的加速度为,则
A.![](https://wkrtcs.bdimg.com/rtcs/image?w=13&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"13","h":"15","dataType":"gif","c":"word/media/image9.png"})
=0 B.=
C.> D.0<<
8. 如图所示,接有灯泡L的平行金属导轨水平放置在匀强磁场中,一导体杆与两导轨良好接触并做往复运动,其运动情况与弹簧振子做简谐运动的情况相同。图中O位置对应于弹簧振子的平衡位置,P、Q两位置对应于弹簧振子的最大位移处。若两导轨的电阻不计,则
A.杆由O到P的过程中,电路中电流变大
B.杆由P到Q的过程中,电路中电流一直变大
![](https://wkrtcs.bdimg.com/rtcs/image?w=166.66666666667&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"166.66666666667","h":"136","dataType":"gif","c":"word/media/image11.png"})
C.杆通过O处时,电路中电流方向将发生改变
D.杆通过O处时,电路中电流最大
二、实验题(共3小题,共24分。把答案填写横线上, 按要求做答)
9..(4分)用游标为50分度的卡尺,测定某圆筒的内径时,卡尺上的示数如图所示,可读出圆筒的内径为____________mm。
![](https://wkrtcs.bdimg.com/rtcs/image?w=613&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"613","h":"193","dataType":"png","c":"word/media/image12.png","imgOriW":613,"imgOriH":193})
10.(6分)用伏安法测一节电池的电动势和内电阻时,得到的U-I图线如图12所示,则根据图线可知:干电池的电动势为 V,内电阻是 Ω。图线中的a点对应的外电阻是 Ω,电源此时内部热耗功率为 W。图线中的b点对应的外电阻是 Ω,电源此时的输出功率为 W。
![](https://wkrtcs.bdimg.com/rtcs/image?w=138&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"138","h":"115","dataType":"png","c":"word/media/image13.png","imgOriW":138,"imgOriH":115})
11. (14分)一直流电压表,量程为1 V,内阻为1 000Ω,现将一阻值为5000~7000Ω之间的固定电阻R1与此电压表串联,以扩大电压表的量程.为求得扩大后量程的准确值,再给定一直流电源(电动势E为6~7 V,内阻可忽略不计),一阻值R2=2000Ω的固定电阻,两个单刀开关S1、S2及若干线.
(1)为达到上述目的,将答题卡上对应的图连成一个完整的实验电路图.
![](https://wkrtcs.bdimg.com/rtcs/image?w=191&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"191","h":"156","dataType":"png","c":"word/media/image14.png","imgOriW":1075,"imgOriH":879})
(2)连线完成以后,当S1与S2均闭合时,电压表的示数为0.90 V;当S1闭合,S2断开时,电压表的示数为0.70 V,由此可以计算出改装后电压表的量程为 V,电源电动势为 V.
三、本题共3小题;共48分。解答应写出必要的文字说明、方程式和重要演算步骤。只写出最后答案的不能得分。有数值计算的题。答案中必须明确写出数值和单位.
12. (14分)如图所示,一个质量为m、电量为q的带电小球,在一个竖直向上的匀强电场中由A从静止开始向上做匀加速直线运动,运动一段时间到达B点时,电场方向突然改变向下,但大小未变,经过相同的时间小球刚好回到出发点,求该电场的电场强度E。
![](https://wkrtcs.bdimg.com/rtcs/image?w=144&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"144","h":"161","dataType":"png","c":"word/media/image15.png","imgOriW":144,"imgOriH":161})
13. (16分)探究能力是物理学研究的重要能力之一.有同学通过设计实验来探究物体因绕轴转动而具有的转动动能与哪些因素有关。他以圆型砂轮为研究对象,研究其转动动能与其质量、半径、角速度等的具体关系。如图16所示,砂轮由动力带动匀速旋转测得其角速度ω,然后让砂轮脱离动力,用一把弹性尺子与砂轮接触使砂轮慢慢停下,设尺和砂轮间的摩擦力恒为![](https://wkrtcs.bdimg.com/rtcs/image?w=35&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"35","h":"39","dataType":"gif","c":"word/media/image16.png"})
,(不计转轴的质量及其与支架间的摩擦)分别取不同质量、不同半径的砂轮,使其以不同角速度旋转的进行实验,最后得到的数据如下表所示:
半径/cm | 质量/m0 | 角速度/rad·s-1 | 圈数 | 转动动能/J |
4 | 1 | 2 | 8 | |
4 | 1 | 3 | 18 | |
4 | 1 | 4 | 32 | |
4 | 2 | 2 | 16 | |
4 | 3 | 2 | 24 | |
4 | 4 | 2 | 32 | |
8 | 1 | 2 | 16 | |
12 | 1 | 2 | 24 | |
16 | 1 | 2 | 32 | |
(1)根据题给数据计算砂轮的转动动能Ek,并填在上面的表格里。
(2)由上述数据推导出该砂轮的转动动能Ek与质量m、角速度ω、半径r的关系式为_____________。
(3)以上实验运用了物理学中的一个重要的思维方法是:_________________。
![](https://wkrtcs.bdimg.com/rtcs/image?w=192&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"192","h":"184","dataType":"png","c":"word/media/image17.png","imgOriW":192,"imgOriH":184})
14. (18分) A、B两滑块在同一光滑的水平直导轨上相向运动发生碰撞(碰撞时间及短),用闪光照相机,闪光4次摄得的闪光照片如图所示,已知闪光的时间间隔为![](https://wkrtcs.bdimg.com/rtcs/image?w=20&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"20","h":"19","dataType":"gif","c":"word/media/image18.png"})
,而闪光本身持续时间极短,在这4次闪光的瞬间,A、B两滑块均在0~80cm刻度范围内,且第一次闪光时,滑块A恰好通过x=55cm处,滑块B恰好通过x=70cm处,求:
(1)碰撞发生在何处?
(2)碰撞发生在第一次闪光后多少时间?
(3)两滑块的质量之比等于多少?
![](https://wkrtcs.bdimg.com/rtcs/image?w=324&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"324","h":"111","dataType":"png","c":"word/media/image19.png","imgOriW":324,"imgOriH":111})
![](https://wkrtcs.bdimg.com/rtcs/image?w=638&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"638","h":"554","dataType":"png","c":"word/media/image20.png","imgOriW":658,"imgOriH":571})
4. A 解析:从0到![](https://wkrtcs.bdimg.com/rtcs/image?w=17&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"17","h":"41","dataType":"gif","c":"word/media/image21.png"})
的时间内,磁感应强度从2均匀减小到0,根据楞次定律和右手定则可判断出感应电流的方法与规定的方向相反,大小为:;同理,从到T的时间,磁感应强度方向向下,大小均匀增大,感应电流的磁场方向向上,由右手定则可知感应电流的方法与规定的方向相反,大小为:,故A选项正确。
5. ABC 解析:从F-t图象上可以看出,在0~t1、t2~t3和t4以后的时间内,弹簧秤对钩码的拉力F等于钩码的重力10N;t1~t2这段时间内,弹簧秤对钩码的拉力F小于钩码的重力,钩码处于失重状态;t3~t4这段时间内,弹簧秤对钩码的拉力F大于钩码的重力,钩码处于超重状态,所以选项ABC正确。
6. B 解析:由图像的变化快慢可知曲线ab先变化非常快,为斥力图,cd为引力图,e点是两曲线的交点,即分子间引力与斥力相等时,此时分子间距离的数量级为10-10m,B对A错;分子间距离大于e点横坐标值时,分子间作用力表现为引力,C错;分子势能在平衡位置以内随距离增大而减小,在平衡位置以外随分子间距离增大而增大,D错.
7. C 解析:假设将小球放在弹簧顶端释放球,这就是一个常见的弹簧振子,由对称性知,球到达最低点的加速度为![](https://wkrtcs.bdimg.com/rtcs/image?w=15&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"15","h":"17","dataType":"gif","c":"word/media/image10.png"})
,本题中弹簧在最低点时压缩量比假设的模型大,故答案为C.
8. B 解析:导体杆往复运动,切割磁感线相当于电源,其产生的感应电动势E=Blv,由于杆相当于弹簧振子,其在O点处的速度最大,产生的感应电动势最大,因此电路中的电流最大。根据右手定则,电流在P、Q两处改变方向,此时的电流为零。故选择B.
9. 11.14 mm
10. 1.5V 0.2Ω 0.4Ω 1.25W 0.1Ω 2.5
解析:由电源的伏安特性曲线读得电源电动势为E=1.5V,横截距表示短路电流I=7.5A,电源内阻为![](https://wkrtcs.bdimg.com/rtcs/image?w=107&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"107","h":"24","dataType":"gif","c":"word/media/image25.png"})
Ω。
a点对应的电源输出电压为1.0V,电流为2.5A,此时的电压和电流是加在外电阻两端的电压和流过外电阻的电流,因此![](https://wkrtcs.bdimg.com/rtcs/image?w=123&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"123","h":"29","dataType":"gif","c":"word/media/image26.png"})
Ω,电源内部热耗功率为W。
![](https://wkrtcs.bdimg.com/rtcs/image?w=327&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"327","h":"176.8","dataType":"png","c":"word/media/image28.png","imgOriW":327,"imgOriH":268})
图线中的b点所对应的外电阻Rb上的电压为0.5V,流过其中的电流为5.0A,于是Ω 输出功率为Pb=IbUb=0.25W。
11. 解析:(1)因为电路中需要得到改装后电压表量程与电源电动势两个未知数,所以需要两个电路状态联立方程求解。连接如图所示。
(2)当当S1与S2均闭合时,由闭合电路的欧姆定律得:
![](https://wkrtcs.bdimg.com/rtcs/image?w=104&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"104","h":"43","dataType":"gif","c":"word/media/image30.png"})
即: ![](https://wkrtcs.bdimg.com/rtcs/image?w=140&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"140","h":"41","dataType":"gif","c":"word/media/image31.png"})
①
当S1闭合,S2断开时,由闭合电路的欧姆定律得:
![](https://wkrtcs.bdimg.com/rtcs/image?w=139&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"139","h":"43","dataType":"gif","c":"word/media/image32.png"})
,
即:![](https://wkrtcs.bdimg.com/rtcs/image?w=188&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"188","h":"41","dataType":"gif","c":"word/media/image33.png"})
②
由①②两式可得:![](https://wkrtcs.bdimg.com/rtcs/image?w=81&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"81","h":"23","dataType":"gif","c":"word/media/image34.png"})
,
则电压表的量程:![](https://wkrtcs.bdimg.com/rtcs/image?w=296&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"296","h":"44","dataType":"gif","c":"word/media/image36.png"})
12. 解析:用图象求解,做出速度时间图象如图所示,从图象看出从B上升到最高点的时间与由最高点落回A的时间之比为1:2,所以从A运动到B的时间与从B上升到最高点的时间之比为1:3,即![](https://wkrtcs.bdimg.com/rtcs/image?w=49&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"49","h":"47","dataType":"gif","c":"word/media/image37.png"})
,又 所以解得
![](https://wkrtcs.bdimg.com/rtcs/image?w=139&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"139","h":"148","dataType":"png","c":"word/media/image41.png","imgOriW":139,"imgOriH":148})
13.
半径/cm | 质量/m0 | 角速度/rad·s-1 | 圈数 | 转动动能/J |
6.4 | ||||
14.4 | ||||
25.6 | ||||
12.8 | ||||
19.2 | ||||
25.6 | ||||
25.6 | ||||
57.6 | ||||
102.4 | ||||
(2)EK = kmω2 r2 (k是比例常数) (3)控制变量法
![](https://wkrtcs.bdimg.com/rtcs/image?w=639&md5sum=7ba45e91968bbb9fd71e974c3612b74c&sign=7c6805e972&rtcs_flag=1&rtcs_ver=3.1&l=webapp&bucketNum=33&ipr={"t":"img","w":"639","h":"368","dataType":"png","c":"word/media/image42.png","imgOriW":652,"imgOriH":376})
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