大学物理学
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作者申兵辉,朱世秋,何志巍,韩萍,刘玉颖,贾贵儒
出版社清华大学出版社
ISBN9787302472285
出版时间2017-07
版次1
装帧平装
开本16开
纸张胶版纸
页数214页
字数99999千字
定价29元
上书时间2024-07-13
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基本信息
书名:大学物理学
定价:29.00元
作者:申兵辉,朱世秋,何志巍,韩萍,刘玉颖,贾贵儒
出版社:清华大学出版社
出版日期:2017-07-01
ISBN:9787302472285
字数:312000
页码:214
版次:1
装帧:平装
开本:32开
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编辑推荐
本书是编者结合自己20余年普通物理教学经验(其中十余年的应用技术型本科教学经验)编写而成,内容结构合理,难点处理得当,尤其适合于应用技术型本科普通物理课程教学使用。主要有以下四点:一是考虑不同需求,内容划分层次。标有 “ ※”号的章节内容为自选内容,教师可以根据教学需求进行取舍,无论取与舍,都不影响内容的完整性和逻辑性。习题按难度分为A、B两类,学生可以根据自身情况选做对应难度的题目;二是注意过渡与衔接,方便学生的预习和自学。每部分内容开始都有引言,结束都有小结,构造出清晰的物理知识体系和脉络;三是注重学法指导,降低学习难度。对于中学相对陌生的内容,进行专门学习方法说明。如刚体一章开始即强调类比方法的运用,并编写了大量的类比表格;四是精选物理学家的故事作为阅读材料,激发学习兴趣,培养奋斗精神。
内容提要
本书是为全日制高等院校编写的教学用书.全书分为上、下两册,上册内容包括运动与力、热现象、电与磁、波与粒子四部分,下册内容包括习题解答和拓展阅读两部分.本书的内容涵盖了大学基础物理学的主要内容,并适当突出了近代物理学的地位和作用.在表述上力求思路清晰、结构紧凑、体系完整,具有概念准确、详略得当等特点.书中每章都附有一定量的精心选择的难易适中的习题,并在下册对每一道习题均提供了一种参考解法.另外,拓展阅读部分既有知识拓展和技术应用,又有思维的拓展,通过阅读这些材料不但可以使读者开阔视野,还可以培养物理学的研究方法和思维方式.本书适用于高等院校非物理专业理、工、农、医、牧、水等专业使用,也可供物理学相关工作者学习参考之用.
目录
目录第五篇习题解答章质点运动学 ··················································· 3 1.1要点归纳 ····················································· 3 1.2习题解答 ····················································· 4第 2章动量角动量 ················································· 10 2.1要点归纳 ····················································· 10 2.2习题解答 ····················································· 11第 3章功和能 ······················································· 19 3.1要点归纳 ····················································· 19 3.2习题解答 ····················································· 20第 4章流体力学 ····················································· 25 4.1要点归纳 ····················································· 25 4.2习题解答 ····················································· 26第 5章振动 ························································· 30 5.1要点归纳 ····················································· 30 5.2习题解答 ····················································· 31第 6章狭义相对论基础 ··············································· 36 6.1要点归纳 ····················································· 36 6.2习题解答 ····················································· 37第 7章气体动理论 ··················································· 41 7.1要点归纳 ····················································· 41 7.2习题解答 ····················································· 42第 8章热力学基础 ··················································· 50 8.1要点归纳 ····················································· 50 8.2习题解答 ····················································· 51第 9章静电场 ······················································· 60 9.1要点归纳 ····················································· 60 9.2习题解答 ····················································· 610章恒定磁场 ····················································· 77 10.1要点归纳 ····················································· 77 10.2习题解答 ····················································· 78 ii目录1章电磁感应与电磁场 ·············································· 90 11.1要点归纳 ····················································· 90 11.2习题解答 ····················································· 912章波动 ························································· 99 12.1要点归纳 ····················································· 99 12.2习题解答 ····················································· 1003章光波 ························································· 107 13.1要点归纳 ····················································· 107 13.2习题解答 ····················································· 1094章量子物理学初步 ··············································· 116 14.1要点归纳 ····················································· 116 14.2习题解答 ····················································· 1175章原子核与基本粒子 ·············································· 124 15.1要点归纳 ····················································· 124 15.2习题解答 ····················································· 125第六篇拓展阅读拓展 A物理学与生命科学 ·············································· 129 A.1物理学与大学教育 ·············································· 129 A.2生命科学专业的学生学习物理学的目的和意义 ························ 130 A.3力学与生命科学 ················································ 131 A.4热学与生命科学 ················································ 133 A.5电磁学与生命科学 ·············································· 134 A.6光学与生命科学 ················································ 136 A.7量子力学与生命科学 ············································ 138拓展 B非线性系统与生命科学 ·········································· 141 B.1混沌 ························································· 141 B.2维数概念的划时代突破 分维 ··································· 145 B.3混沌与分形的联系 ·············································· 147 B.4耗散结构 ····················································· 147拓展 C生物电磁效应 ················································· 149 C.1生物体中的电学特征 ············································ 149 C.2外电场对生物体的影响 ·········································· 150 C.3生物体中的磁学特征 ············································ 151拓展 D值得借鉴的思维方法 ············································ 154 D.1认知论 ······················································· 154 D.2类比法的应用 ················································· 158 目录 D.3演绎法在相对论中的应用 ········································ 159 D.4模型化方法 ··················································· 163 D.5自由思维 ····················································· 166 D.6现代物理学与经典物理学思维研究方法的差异 ························ 167拓展 E光摄技术 ····················································· 168 E.1光慑原理 ····················································· 168 E.2光慑的构造 ··················································· 170 E.3光慑在生命科学领域中的应用 ····································· 171拓展 F超离心技术 ··················································· 173拓展 G傅里叶变换红外光谱仪的原理 ···································· 175拓展 H红外线与红外技术 ·············································· 177 H.1红外线的产生 ················································· 177 H.2红外线的检测 ················································· 178 H.3红外技术 ····················································· 179拓展 I超导体的电磁特性 ·············································· 182 I.1零电阻 ······················································· 182 I.2过斯纳效应 ··················································· 184拓展 J电磁场的相对性 ··············································· 186 J.1在不同参考系测量电场 ·········································· 186 J.2动量和力的变换 ················································ 188 J.3静止电荷对运动电荷的作用力 ····································· 189 J.4运动电荷对运动电荷的作用力 ····································· 189 J.5电磁场的变换 ················································· 190拓展 K若干专题分析 ················································· 192 K.1行星的运动轨道 ················································ 192 K.2对振动问题的进一步讨论 ········································ 194 K.3相对论质速关系和质能关系的必然性 ······························· 198 K.4再论大气压强随高度的变化······································· 201 K.5电势的多极展开 ················································ 202 K.6光场的时空相干性 ·············································· 204拓展 L基于量纲分析的建模方法 ········································ 210 L.1量纲与量纲分析 ················································ 210 L.2建模方法和步骤 ················································ 212
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