Both the maximum collision energy of a point mass and the maximum potential energy are larger than those at the point of maximum falling heig.
磨介的碰撞能量是确定球磨机产量、产品粒度、粉磨效率、磨介及衬板磨损、磨机筒体与联接螺栓强度的关键参数。
The conclusionis:the CID spectra mainly depend on collision energy,whereas also associated with the initial energy of mother ion and reaction .
结论 :CID谱主要取决于碰撞能量 ,但与母离子的初始内能和反应气体仍有关系。
HOUO2OH) was tunable within the range rinert≤rreactive≤ rdecomposition by changing the collision energy of CID.
探讨了气相中负离子与分子反应生成UO5负离子的可能机理,指出通过调控分子与离子的碰撞时间和碰撞能量可以控制离子的电子活动半径,合适的能量可使电子云的半径落在rinert≤reactive≤rdecomposition之间,从而促进某些化学反应的进行,以合成某些通常状况下难以生成的物质。
Based on the summarization of the research on impact energy of mooring ships under wave actions and analysis of the main factors influencing the impact energy on wharf induced by mooring ships,this paper points out the adaptability of the existing calculation methods,and proposes some suggestions on the contents and orientation of further research.
归纳和总结国内外有关系泊船舶在波浪作用下对靠船设施的撞击作用的研究,分析影响系泊船舶撞击能量的若干主要因素,指出当前国内外各类撞击能量计算公式的适用性。
The paper describes it is necessary to calculate the impact energy of the vessel against the wharf before proposing the design of fender and measures of the use when renovating the old wharf.
介绍老码头修复时,通过计算船舶对码头的撞击能量,提出护航的设计和使用措施。
It is of key importance to conclude accurately the impact energy exerted by mooring ship under wave actions for the design of terminal and the selection and design of rubber fender.
系泊船舶荷载是外海开敞式码头设计的主要依据之一,从动能定理角度分析,船舶的撞击力与船舶的撞击能量有关,如何准确确定波浪作用下系泊船舶对码头的撞击能量,对于码头设计和护舷的选取至关重要。
This paper analyzes the characteristics and modes of ferryboats′ berthing,discusses the calculation method of strike energy about large-scale ferryboats,and recommends reasonable calculation mode.
分析轮渡工程渡轮的靠泊特点以及靠泊模式,探讨大型轮渡码头渡轮撞击能量的计算模式,并提出建议的计算模式。
As a considerable ingredient of wharf s secure use, the strike energy against wharf is affected by many factors.
码头撞击能量作为影响码头使用安全的一个重要因素,它受到许多因素的影响。
The principled diagram of the major loop circuit and the relay circuit based on the intermediate frequency power supply energy stroke startup mode is presented in this paper.
设计了中频电源能量撞击启动方式的主回路电路原理图、继电器电路原理图和零电压软起动方式的主回路电路原理图,对两种启动方式的起动步骤进行了详细分析,对两种启动方式的特点进行了对比和总结,提出了指导性意见,使读者能够对中频电源的起动方式有一个深入的了解和掌握。
Collisional Energy Transfer with the Participation of the Excited Cs Atoms;
激发态Cs原子参与的碰撞能量转移
Collisional Energy Transfer between Alkali Atoms and Alkali Molecules;
碱金属原子与分子间的碰撞能量转移
Excitation Transfer in Rb(5D-7S)-He,Ar,H_2 Collisions
Rb(5D-7S)-He,Ar,H_2的碰撞能量转移
Energy transfer in Cs(7D_J)+Cs(6S_(1/2)) collisions
Cs(7D_J)+Cs(6S_(1/2))间的碰撞能量转移
Cross sections for energy transfer in collision between two excited state Cs(6P) atoms
激发态Cs(6P)原子间碰撞能量转移截面
Increasing the collision energy is equivalent to studying the force at a shorter distance scale.
增加碰撞能量等于在研究更小尺度下的作用力。
Theoretical Studies of Collision-induced Energy Transfer within Diatomic Molecules in Excited States;
双原子分子激发态碰撞能量转移的理论研究
Collisional Energy Transfer between the High States of Alkali Molecule and Alkali Atoms;
高位碱分子态与碱原子间的碰撞能量转移
Collisional Energy Transfer and Fine--structure Mixing of Alkali Molecules;
碱分子的碰撞能量转移和精细结构混合
Collisional Energy Transfer between the Excitation States of Alkali Molecules and the Ground States of Alkali Atoms;
碱分子激发态与基态原子间的碰撞能量转移
Reactive and Nonreactive Energy Transfer in Cs(6D_J)+(H_2,H_e) Collisions
Cs(6D_J)+(H_2,H_e)的反应与非反应碰撞能量转移
Capacitor Energy Loss and Total Non-elastic Collision Energy Loss of Analog
电容器的能量损失与完全非弹性碰撞能量损失的类比
In a frontal collision, the car′s nose will deform to absorb the impact energy.
在正面碰撞中,汽车前端会变形,来吸收撞击能量。
Elastic collisions deplete very little of the electron's energy.
弹性碰撞中电子减少的能量非常少。
Transverse Momentum Fluctuations in л~+p and K~+p Collisions at 250 GeV/c;
250GeV/c能量下л~+p和K~+p碰撞中的横动量起伏
And could this jostling liberate those huge energies?
而这样的挤压碰撞能释放出如此巨大的能量吗?
When the highly energized particles collide with atmospheric gases,
当这些高能量的粒子与大气层的气体发生碰撞,
Research on Scaling p_T Distribution in High Energy Collisions;
高能碰撞中粒子横动量谱标度行为的研究