大学物理分层次作业练习册
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【作 者】主编 梁志强
【I S B N 】978-7-5170-2963-2
【责任编辑】宋俊娥
【适用读者群】本专通用
【出版时间】2015-02-01
【开 本】横8开
【装帧信息】平装(光膜)
【版 次】第1版第1次印刷
【页 数】36
【千字数】108
【印 张】4.5
【定 价】¥12
【丛 书】应用技术型高等教育“十二五”规划教材
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本练习册共分14个单元,每一单元对应《大学物理》教材的一章内容。题型设计为选择题、计算题、论述题三大类,其中计算题包括计算
与证明两种形式的题目,而论述题则包含概括、论述、解释、总结等形式的题目。其内容涵盖力学、热学、电磁学、波动、光学和近代物理。
本练习册可作为高等学校工科专业大学物理课程的作业、课外练习或考研复习资料,也可作为相关课程的教学参考资料。
《大学物理分层次作业练习册》为大学物理课程的辅助学习资料,可以辅助学生理解和掌握该课程的基本概念、基本规律和基本方法。认真勤奋地去做练习题,是提高学习质量和学习效率的有效途径,也是提高应用物理学原理分析解决工程技术问题能力的有效途径。
德国著名物理学家索末菲曾经写信告诫他的学生海森堡:要勤奋地去做练习,只有这样你才会发现,哪些你理解了,哪些你还没有。值得注意的是,索末菲培养出海森堡、泡利、贝特三位诺贝尔奖获得者以及一大批著名科学家。 因此我们建议每章学习结束,除完成一定数量的课堂练习及课后习题外,最好及时复习、反思、概括,并给出每章小结,其内容可以包括基本概念、基本规律和基本方法,典型例题,学习体会等。十余年的教学实践表明,全面复习、及时总结,是一种行之有效的学习方法。
本练习册中习题的编写与设计方面借鉴了国外优秀物理教材的做法,强调理论与实际紧密结合,注意将习题内容与工程技术问题和日常生活实例密切结合。习题采用多种形式及由简单到复杂的分层次编写方法。尤其是论述题,没有设计“唯一”的标准答案,而是根据学习者深入思考的不同层次,理解课程内容的不同程度,可以给出不同形式和不同层次的回答。
本练习册由梁志强教授负责论述题的编写,由尹妍妍、王青、吴世亮、王立飞、李畅等分别主持1~3章,4、9、10章,5~7章,8、11章及12~14章练习题的编写,梁志强负责练习册的统稿工作。
欢迎使用者反馈意见,以便再版时更正与完善。
第1章 质点运动学 ····································································································· 1
第2章 牛顿定律 ········································································································· 5
第3章 动力学基本定理与守恒定律 ············································································ 9
第4章 刚体定轴转动 ································································································ 13
第5章 静电场 ··········································································································· 17
第6章 静电场中的导体与电介质 ·············································································· 21
第7章 真空中的恒定磁场 ························································································· 25
第8章 电磁感应与电磁场 ························································································· 29
第9章 机械振动 ······································································································· 33
第10章 波动 ············································································································ 37
第11章 光学 ············································································································ 41
第12章 气体动理论 ································································································· 49
第13章 热力学基础 ································································································· 53
第14章 近代物理基础习题 ······················································································· 61
