In addition, the holographic dark energy model with varying gravitational constant is also discussed in this part.

此外，也讨论了引力常数变化的全息暗能量模型的观测限制。

This paper has made a qualitative analysis and discussion for the cause of the variation of geocentric gravitational constant.

对地心引力常数的变化原因作了定性分析和讨论。

An explanation of the cause of climate change is then suggested based on the possibility that the Universal Gravitational Constant (G) may vary with time.

并且根据万有引力常数（G）随时间变化的可能性提出了关于气候变化原因的解释。

A new method is provided to measure the gravitational constant G that depends on the density of the body.

进一步从理论上提供检验不同质量密度的物体之间的引力常数是不同的实验方法。

G The gravitational constant G - is an extremely low number-- - 6.67 times 10 to the minus 11-- in our... as our units, which is newtons, gram-meters per kilogram or something like that.

万有引力常数,是一个非常小的数字-,=6。67乘10的-11次方-,每公斤克米，或者类似的,它是个极端小的数字。

One area where the conflict between quantum theory and relativity comes to the fore is in the gravitational constant, G, the quantity that describes the strength of gravity.

凸显量子理论和相对论冲突的地方之一是引力常数G，这个量描述引力的强度。

The result was a remarkably accurate estimate of a parameter called the gravitational constant, and from that Cavendish was able to calculate the density and mass of the earth.

测量结果惊人的准确，他测出了万有引力恒量的参数，在此基础上卡文迪许计算地球的密度和质量。

In the experiment on measuring the gravitational constant G with a mechanical resonance method, the distance between the centers of the attracting mass and test mass is a variable.

设计了一种新的测量大质量物体间万有引力常数G的实验方案，笔者先阐述了该方案总体设计结构，然后分析了预期的理论观察值。

This paper was a new design of Bernoulli experiment. It acquired the numerical value of gravitational constant with the method of date processing.

本文是在柏努利演示实验的基础上，对该实验进行新型设计，并运用化工数据处理的方法得到重力加速度的数值。

You put in here the gravitational constant, and you put in the radius of the Earth, which is 6,400 kilometers, out pops our well-known number of 8m/s^2 9.8 meters per second squared.

这里写上,万有引力常数，这里是地球半径，也就是6400公里，就可以推算出,也就是9。

And now we're going to multiply that by the gravitational force constant.

我们现在把这个结果,和重力常量相乘。

In one direction there is a constant gravitational force, in the other very many irregular blows from the molecules.

在一个方向上有不变的重力在作用，在另一个方向上则是分子的大量不规则的碰撞。

When we have gravity an object is influenced by the gravitational acceleration and the gravitational acceleration is a constant.

当我们考虑到重力时,物体受重力,加速度影响,重力加速度,是一个常数。

A neutron star is under a constant pressure battle: massive gravitational pressure squeezing the neutrons together, but a countering neutron degeneracy pressure pushing out.

一颗中子星处于一场持续的压力对抗中：物质引力的压力不断挤压中子，但反向的中子简并压把它们相互推开。

The angle of earth's spin is constant only because the moon's gravitational pull.

地球的自转角度能够保持不变，完全是因为有了月球的引力拉动。

Since all objects in this lecture hall and the earth fall with the constant acceleration, which is g we can write down that the gravitational force m would be m times this acceleration, g.

由于地球上的所有物体,都受向下的恒定加速度g影响,因此我们可以把重力写作,此加速度g乘以。