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词汇 example_english_kinetic-energy
释义

Examples of kinetic energy


These examples are from corpora and from sources on the web. Any opinions in the examples do not represent the opinion of the Cambridge Dictionary editors or of Cambridge University Press or its licensors.
A higher kineticenergy of the tungsten ions means that the plasma streams inside the array, including the region near the axis, are collisionless.
The electron kineticenergy is then comparable to the ion kineticenergy.
In a beam-plasma system, part of the kineticenergy stored in the electron beams can convert into electromagnetic energy by means of beam-plasma instabilities.
We see that the plasma species follow similar kineticenergy evolutions.
As a result, this 'surfing' particle gains kineticenergy.
The energy of disturbances is primarily kineticenergy.
Further, according to linear analysis, for a given strain rate, the higher the rotation rate, the higher is the kineticenergy growth rate.
Evolution of kineticenergy in rapidly distorted homogeneous shear flow.
The energy of disturbances is primarily potential r rather than kineticenergy.
The residual ion kineticenergy is also shown.
The energies quoted in the legend are those of the mean kineticenergy per nucleon of the ions.
Some authors26,27 also relate this criterion with an approximate minimization of total kineticenergy, though this is not completely accurate.
The kineticenergy fluxes dominate the magnetic fluxes in the whole scales in those panels.
It was also pointed out that inertial waves are capable of transmitting a large fraction of the turbulent kineticenergy across the interface.
However, here we are dealing with the kineticenergy not the magnetic one.
Collisions locally preserve momentum, angular momentum and kineticenergy.
In this case, the kineticenergy of the plasma rotation is much lower than the longitudinal kineticenergy of the plasma flows at the outlet.
Since increased canopy reduces the kineticenergy with which raindrops hit the ground, the damage to soil from rainfall is reduced.
In this process, the energy absorbed by the electrons during the interaction with the laser pulse is converted into both radiation and ion kineticenergy.
The turbulence energy balance is examined, including the separate effects of vertical diffusion of pressure and local kineticenergy.
The strong jets observed in this study most likely have their origin in the conversion of potential energy to vertical kineticenergy.
In the classical way of looking at things, the kineticenergy metric is a symmetric positive-definite matrix-valued function of configuration.
These include gravity, kineticenergy, surface tension of water, capillary action, air currents, and differential pressure.
This differs from the energy (2.2) conserved by equations (2.1) by the replacement of the kineticenergy by its geostrophic value.
As the radiated yield becomes comparable to the available kineticenergy, energy conservation limits the yield.
As the flow decays under viscous influences, fluid particles have less kineticenergy to exchange for potential energy in their vertical motions.
The lower value of a1 indicates that the boundary layer is less efficient in extracting shear stress from a given amount of turbulent kineticenergy.
One can see for the considered parameters that the rotation kineticenergy is much lower than the radial par t of kineticenergy.
As expected, at leading order the kineticenergy of whistler waves is negligible and only the magnetic energy is relevant.
At these sheets magnetic energy is transformed into heat and kineticenergy by means of reconnection.
The diffusion and dissipation terms of the turbulence kineticenergy equation could not be estimated directly.
The program used in these predictions contains a one-equation model of turbulence, using turbulence kineticenergy with an algebraic mixing length.
The turbulent kineticenergy and the turbulence dissipation rate are verified experimentally for a comparison with the result of the turbulence model.
The second term couples the electromagnetic energy and the kineticenergy of collective motion, and opens a channel of energy dissipation into ions.
In this expression, is the constrained affine connection encoding the free kineticenergy and any constraints on the system.
As before, the complete equation of the kineticenergy of the fluctuating motion is now considered for the inner layer.
The transfer of the kineticenergy is again assumed to be as significant as its production in the inner layer.
Here we evaluate one particular solution for the shear wave, focusing on the temporal behaviour of the field energy and kineticenergy.
The approach was based on the principle of conservation of kineticenergy.
The work done by buoyancy, then, appears as kineticenergy of the horizontal relative velocities associated with the resulting ' spin-up ' relative vorticity.
For comparison, the total turbulence kineticenergy obtained from figure 6 is included.
Initially this is all in the form of kineticenergy.
For the latter purpose, the equation for the turbulent kineticenergy is used to close the system of equations.
Not the least of these is that the turbulent kineticenergy may be transported by the pressure-velocity interaction term in the equation.
These data have been used t o estimate some of the component terms of the turbulence kineticenergy equation.
Lengthscale evolution is measured, and the overturning and buoyancy lengthscales (associated with potential and kineticenergy, respectively) are found to characterize flow development.
As a particle moves vertically, it loses kineticenergy t o potential energy with respect t o the density gradient.
In the region of restratification overshoot, the ratio grows as stored potential energy is converted back to kineticenergy.
There is equipartition of energy between the magnetic energy density of the disturbance field and the kineticenergy density of the fluctuating fluid.
The turbulent kineticenergy dissipation obtained from the present calculation follows similar trends.
In this case, the dilatational terms may be negligible in the turbulent kineticenergy equation.
They observed a pronounced reduction of the turbulent kineticenergy following the imposition of the transverse pressure gradient.
The production of turbulent kineticenergy is shown in figure 26.
These results reveal that more sophisticated models are actually needed in order to interpret the processes involved in this high kineticenergy range.
For positive delay, we observe a slow decrease of the signal and dynamics radically change with electron kineticenergy.
This is a result of the thermalization power being given by the kineticenergy divided by the thermalization time.
This latter allowed getting quantitative information about the relative ion abundances, their kineticenergy and their charge state.
However, the ion mean kineticenergy increases with the laser energy, as one can expect.
Finally, one can see the average kineticenergy of the emitted electrons.
Therefore, it is more difficult to obtain a comparable precision in the kineticenergy distributions for lead cluster fragments as for the rare gases.
Lowering the beam kineticenergy, the dynamic screening length increases.
After the impact such a pellet should amalgamate with the target material and deliver its macroscopic kineticenergy by conversion into ion-thermal energy.
Here we calculate change based on the kineticenergy of the initially perturbed system.
We see a later increase in kineticenergy as reconnected fields are convected out of the diffusion region.
If the molecule arrives at the droplet with a non-zero kineticenergy, this will heat the droplet additionally.
The third and fourth terms are due to the kineticenergy in the dust particles and to the thermal velocity of the dust particles respectively.
We plot the kineticenergy flux and the magnetic energy flux separately, and the sum of them is shown as the total flux.
In association with this damping, ion kineticenergy is increased.
The macroscopic invariants related to particle kineticenergy have been found.
This function represents the local and direct transfer of kineticenergy to small scales.
Note that the temperature parameter is the particle's kineticenergy in terms of its (relativistic) rest energy.
As expected, we note that at leading order the magnetic energy of ion cyclotron waves is negligible and only the kineticenergy is relevant.
As expected, we note that at leading order the kineticenergy of whistler waves is negligible and only the magnetic energy is relevant.
E is the kineticenergy of the fog jet as it leaves the accelerator.
The introduced mesh is used for building turbulent specific kineticenergy power spectrum.
This leads to an absent phase of formation and existence of the classical spectrum of turbulent kineticenergy.
For this purpose, analyze the power spectrum of turbulent specific kineticenergy.
The stored energy is expanded principally in transferring kineticenergy to the electrons and in ionizing and exciting atoms and molecules of the gas.
Later in time the layer appears to resume growth as the turbulent kineticenergy is increased due to crenulative effects.
For example, the temperature of a gas is defined as, and determined by, the average kineticenergy of the molecules composing that gas.
The thermal energy reservoir resulted from translation of potential and kineticenergy during accretion and core segregation.
Figure 1 provides an approximate diagram of its large-scale kineticenergy outline.
The plasma is accelerated by the thermal mechanism in which the enthalpy of the particles is transformed into kineticenergy.
The linearized stability equations and boundary conditions are converted into a balance equation for kineticenergy.
The total kineticenergy of the manipulator system includes the kinetic energies of the sliders, intermediate links, and the platform.
The value of the parameter k affects only the part corresponding to the kineticenergy of the manipulator used in the minimization.
This kineticenergy is taken up by the dissipated power and by the inertial forces power.
The turbulent intensities evolve consistently and in a fashion explicable in terms of the turbulent kineticenergy balances.
The spatial structure of the corresponding eigenmode is obtained after normalizing the velocity and density fields of the last time-step by its kineticenergy.
The magnitude of impact forces depends primarily on the kineticenergy of the bodies which collide and the stiffness of the contact.
This discussion uncovers the evolution of particle dispersion and the two-scale nature of the transport process and kineticenergy decay.
These examples are from corpora and from sources on the web. Any opinions in the examples do not represent the opinion of the Cambridge Dictionary editors or of Cambridge University Press or its licensors.
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