预订 Infectious Diseases and Our Planet (Mathematics of Planet 【全球购】进口原版图书,约5-8周到达国内后发出
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海外直订Infectious Diseases and Our Planet 传染病与我们的星球
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海外直订The Mathematics of Oxygen and Substrate Diffusion 氧与基体扩散
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明星店铺 中华商务进口图书旗舰店
预订 Infectious Diseases and Our Planet [ISBN:9783030508289] 【全球购】进口原版图书,约5-8周到达国内后发出
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【预订】Infectious Diseases and Our Planet 9783030508258 国外库房发货,通常付款后3-5周到货!
Product Details 基本信息 ISBN-13 书号 9783030508258 Author 作者 Teboh-Ewungkem Format 版本 精装 Pages Number 页数 256页 Publisher 出版社 Springer Berlin Heidelberg Publication Date 出版日期 2021-01-14 Language 语种 其它(含多语) Book Contents 内容简介 This book features recent research in mathematical modeling of indirectly and directly transmitted infectious diseases in humans, animals, and plants. It compiles nine not previously published studies that illustrate the dynamic spread of infectious diseases, offering a broad range of models to enrich understanding. It demonstrates the capability of mathematical modeling to capture disease spread and interaction dynamics as well as the complicating factors of various evolutionary processes. In addition, it presents applications to real-world disease control by commenting on key parameters and dominant pathways related to transmission. While aimed at ea
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按需印刷The Mathematics of Oxygen and Substrate Diffusion 预订,预计下单后2-3周左右发货!
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预售 按需印刷 The Mathematics of Oxygen and Substrate Di 北京发货,付款后10天内发货
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【预订】Infectious Diseases and Our Planet 9783030508289 国外库房发货,通常付款后3-5周到货!
Product Details 基本信息 ISBN-13 书号 9783030508289 Author 作者 Miranda I. Teboh-Ewungkem Format 版本 平装-胶订 Pages Number 页数 null页 Publisher 出版社 Springer Berlin Heidelberg Publication Date 出版日期 2022-01-16 Product Dimensions 商品尺寸 9.21 x 6.14 x 0.63 Shipping Weight 商品重量 0.93 Language 语种 其它(含多语) Book Contents 内容简介 This book features recent research in mathematical modeling of indirectly and directly transmitted infectious diseases in humans, animals, and plants. It compiles nine not previously published studies that illustrate the dynamic spread of infectious diseases, offering a broad range of models to enrich understanding. It demonstrates the capability of mathematical modeling to capture disease spread and interaction dynamics as well as the complicating factors of various evolutionary processes. In addition, it presents applications to real-wo
¥1002