高校体育专业学生膳食营养状况的研究

对高校体育专业学生的膳食营养状况的研究状况进行综述,旨在了解高校体育专业学生这个特殊人群的膳食营养研究的现状,力图发现目前研究中的缺陷并寻找可能的研究方向。     

DFP技术的研究动态

综述了DNA指纹技术现阶段在动物和植物中的研究现状，对DNA指纹技术产生以来在人类遗传学、医学以及动物遗传育种领域中的应用作了详细的介绍，展望了DNA指纹技术的发展前景．     

贝叶斯网络在战术态势评估中的应用

首先提出了一种新的战术态势评估的定义,即战术态势评估是对特定战场环境中敌方、我方、中立方所具有的各种战斗力要素的当前状态的描述和未来发展趋势的预测。接着介绍了空-地战中红方飞机与蓝方导弹阵地的对抗场景,在此基础上建立了红方飞行员通过机载电子装备的状态判断蓝方高射武器的型号和状态的贝叶斯网络,然后运用所建立的网络动态演示了在空-地战中态势评估的内容和结果,最后讨论了在战术态势评估中运用贝叶斯网络的若干问题。     

北京浅层地下水的变化特征与可持续利用

论述北京地区浅层地下水位的动态变化情况，分析其变化原因，并就其地下水的过度开采等现象提出一定的解决措施．     

西部高校体育教学的现状及应对措施

大学体育教学是大学教学的一部分。随着我国全面实施素质教育，传统的教学模式和教育方式等都已经不适应形势的发展，大学体育教育，不仅要培养学生的体育技能，增强其体质，而且还要培养学生的体育行为方法、文化素养和综合能力，建立以此为方向的新的西部高校体育教学体制。本文拟就对现行的大学体育教育的现状进行考察，并给出相关的对策。     

玉米收获机械化现状与发展战略

通过对我国玉米收获机械化的发展现状和意义进行分析,提出了我国玉米收获机械化的发展对策。     

《周易》与信息融合一致性的研究

从基本思想、思维方法、模型结构及应用领域等角度对《周易》与信息融合技术进行了分析比较·将《周易》方法中信息采集、信息分类、信息处理、做出决策以及分类调整与信息融合技术中传感器信息采集、一级处理(目标优化、定位、识别)、态势评估、威胁估计以及过程优化进行了逐层比较·得出《周易》与信息融合在处理问题的方法上有内在的一致性,在预测和决策方面有其独特的方法,但不能精确、定量地给出判别·将《周易》宏观考察问题的方法与具体融合算法相结合,将会对信息融合技术起到指导作用·     

我国农村旅游市场营销策略探析

对我国农村旅游市场的现状进行了分析,结合对广大农民消费心理和行为特征的概括,针对旅行社工作实务提出对农村旅游市场的调研、产品、价格、促销渠道策略.     

Novel multiferroicity in orthorhombic SmCrO3

This paper reports the ferroelectricity in antiferromagnetic SmCrO_3 with a reasonably large value of spontaneous electric polarization(70μC/cm~2mC cm~(-2)at 50 K)based on the measurement of pyroelectric current.The experimental results showed that the temperature of the onset of polar order was evidently higher(about220 K)than the Neel temperature(T_N=197 K)in the magnetodielectric studies.The calculated magnetodielectric effect(MDE)value was explicitly negative with maximum|MDE|values of about 3.6%around 230 K.The absence of a convincing signature in MDE at antiferromagnetic ordering temperature T_Nindicated the absence of magnetoelectric coupling around this temperature regime.The results further confirmed that the onset of polar order can be attributed to the structural distortion,rather than the canted noncollinear magnetic structure.     

Synthesis of the 3D porous carbon-manganese oxide (3D-C@MnO) nanocomposite and its supercapacitor behavior study

A 3D porous carbon-manganese oxide ([email protected]) nanocomposite is successfully synthesized via a thermal plasma deposition method. The chemical bonds and compositions, phase structures, surface morphologies, etc. of as-obtained [email protected] nanocomposite were characterized by the various equipment, such as X-ray diffractometer, X-ray photoelectron spectroscopy, and electron microscopes. The electrochemical performances of the [email protected] nanocomposite electrode showed a specific capacitance of 780 F g^?1 at a current density of 2 A g^?1 and a capacitance retention rate of 99% after 5000 charge-discharge cycles at a high current density of 10 A g^?1. These excellent capacitive performances may be attributed to the encapsulation of MnO nanoparticles by porous carbon sheets in the [email protected] MnO nanocomposite structure. It is believed that the carbon-encapsulated MnO nanoparticles can be protected from a volume deformation during the charge adsorption/desorption cycle and can be electrically improved by the encapsulated carbon sheets, resulting in better overall capacitive performance. In addition, this study also demonstrates the practical applicability by assembling a supercapacitor using the as-obtained [email protected] nanocomposite to glow a light emitting diode.