生物磁学

摘要土壤磁性数据将是生物磁学农业应用的基础。

The soil magnetism data is the groundwork of biomagnetism application in agriculture .

生物磁学及其在运动医学中的应用

Biomagnetism and Its Application in Sports Medicine

首届全国生物磁学学术交流会概述

General review of the first National Symposium on biomagnetics

生物磁学实验仪的研制

The development of biomagnetism experimental apparatus

生物磁学是研究和应用物质的磁性和磁场与生物特性之间相互联系和相互影响的一门新兴边缘学科。

Biomagnetism is new and interdisciplinary subject , it study magnetism of matter and the connection and affection between magnetic field and organisms .

本文从鸟类使用的磁罗盘、航行地图以及磁感应机制等几方面阐述了目前在鸟类生物磁学方面的研究进展。

We elucidate the development of avian biomagnetism in relation to magnetic compass , navigating map and mechanism of magnetic induction in this paper .

具有类似于铁那样的磁性的材料就是铁磁物质。土壤磁性数据将是生物磁学农业应用的基础。

Materials which have magnetic properties similar to iron are ferromagnetic . The soil magnetism data is the groundwork of biomagnetism application in agriculture .

本文生命频率是指一切人类特质及活动的波动韵律，其中包括生物磁学中人体生物磁的振动频率。

In this paper ,' life-frequency ' refers to the fluctuation rhythm of all human qualities and activities , including the magnetic vibration frequency in human biological in biomagnetism .

通过对河北省平原区某地土壤样品的磁性测试，试图分析河北省平原区的土壤磁性背景，探讨生物磁学农业应用的途径。

Based on soil magnetism investigation on one of area in Hebei Province tibility data to describe the soil magnetic background of plain area in Hebei province , and to study the method of biomagnetism application in agriculture .

随着生物磁学研究的进展，磁场对肿瘤的生物效应逐渐成为该领域研究的热点之一，特别在磁场抑制肿瘤增殖效应的研究方面，已经积累了许多研究资料。

With the development of biomagnetism , it has become one of the hot investigations in the field of bio-effects of magnetic field on tumor . Particularly , among the studies of magnetic field inhibiting tumor growth and proliferation , a lot of investigative materials have been accumulated .

欢迎来到北京生物地磁学实验室！

Welcome to the Bio-geomagnetism Group of the PGL in Beijing !

河口涨潮槽浅层沉积物粒度、轻重矿物、微体古生物和磁学性质的变化可说明涨潮槽在形成演化过程中沉积环境的变化。

Changes of sediments characteristics of core A and C reflect the sediment environment varied during channel formation and development of flood channel .

噪声的积极作用在众多研究领域引起了广泛关注，已经建立的随机共振理论解释了许多物理，化学，生物，磁学，光学和电子学中的非线性现象。

The constructive role of noise in systems has attracted much attention . The established stochastic resonance theories explain many nonlinear phenomena in physics , chemistry , biology , magnetism and electronics .