为了探究动能定理,某学习小组在实验室组装了如图1所示的装置,备有下列器材:                 

打点计时器、学生电源、导线、纸带、复写纸、天平、细沙、滑块、沙桶、木板                        

他们称量滑块的质量为M、沙和小桶的总质量为m.当滑块连接上纸带,让细线跨过滑轮并悬挂空的小桶时,滑块处于静止状态.要完成该实验,请回答下列问题:                                                                    

                  

(1)要完成本实验,还缺少的实验器材是                ;                                                   

(2)实验开始前,首先要                                        ;实验中要保证满足的实验条件是     

(3)在满足(2)问的条件下,让小桶带动滑块加速运动,如图2所示为打点计时器所打的纸带的一部分,图中A、B、C、D、E是按时间先后顺序确定的计数点,相邻计数点间的时间间隔为T,相邻计数点间的距离标注在图上,当地重力加速度为g,则在B、D两点间对滑块用实验验证动能定理表达式为                                           .(用题中所给的表示数据的字母表示)                                                                     

                                                                                                                                       


如图甲所示,电阻不计的光滑平行金属导轨相距L=0.5m,上端连接R=0.5Ω的电阻,下端连着电阻不计的金属卡环,导轨与水平面的夹角θ=300,导轨间虚线区域存在方向垂直导轨平面向上的磁场,其上、下边界之间的距离s=1Om,磁感应强度B﹣t图如图乙所示.长为L且质量为m=0.5kg的金属棒ab的电阻不计,垂直导轨放置于距离磁场上边界d=2.5m处,在t=O时刻由静止释放,棒与导轨始终接触良好,滑至导轨底端被环卡住不动.g取10m/s2,求:                                                                                                                        

                                     

(1)棒运动到磁场上边界的时间;                                                                             

(2)棒进人磁场时受到的安培力;                                                                             

(3)在0﹣5s时间内电路中产生的焦耳热.                                                                

                                                                                                                                    

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