物体的密度与物理学体的速率

胡良 原创 | 2020-12-19 15:50 | 收藏 | 投票
物体的密度与物体的速率
胡良
深圳市宏源清实业有限公司
 
摘要如果想要确认,所有物体是否都会以相同的速率下降 经典物理学理论是没有办法确定的。而量子三维常数理论只需要计算就可以了。结论就是,质量密度大的物体,其速率下降更快。
关键词速率,密度,背景空间,不确定性原理,理想实验
作者:总工,高工,硕士,副董事长
 
1物体的密度与物体的速率
 
量子三维常数理论揭示了观测的结果,是被观测对象及背景空间(环境)相互作用的结果。揭示了叠加态原理,量子纠缠及量子干涉的真实逻辑这意味着,存在不确定性原理及宇宙是无穷大的。
The quantum three-dimensional constant theory reveals that the result of observation is the result of the interaction between the observed object and the background space (environment). Reveals the principle of superposition state, the true logic of quantum entanglement and quantum interference. This means that there is an uncertainty principle and the universe is infinite.
根据量子三维常数理论,Vp*C^(3)=h*C,线性原理孤立量子系统的演化是线性的傅里叶级数表达)
According to the theory of quantum three-dimensional constants, Vp*C^(3)=h*C, the linear principle; the evolution of isolated quantum systems is linear (Expression by Fourier series).
如果想要确认,所有物体是否都会以相同的速率下降 经典物理学理论是没有办法确定的。而量子三维常数理论只需要计算就可以了。结论就是,质量密度大的物体,其速率下降更快。
If you want to confirm, whether all objects will fall at the same rate. There is no way to determine the classical physics theory. The quantum three-dimensional constant theory only needs calculations. The conclusion is that for objects with high mass density, the speed drops faster.
 
2一个理想实验,
假如,以地球为背景空间,在同一个位置;对铁球(实心,均匀)及木球(实心,均匀)进行观测。
Suppose, with the earth as the background space, in the same position; observe the iron ball (solid, uniform) and wooden ball (solid, uniform).
 
第一大类型,大铁球与小铁球
第一种情况:大铁球在水中沉下去,而小铁球也在水中沉下去,下降的速率相同。
第二种情况:
假设水的密度趋向于真空(从液态水到水蒸汽,再逐渐稀释,直到真空);就可推导出,大铁球在真空中的下降速率与小铁球在真空中的下降速率也完全相同。
也就是说大铁快与小铁球同时落地。
The first type, big iron ball and small iron ball
The first situation: the big iron ball sinks in the water, while the small iron ball also sinks in the water at the same rate of decline.
The second case:
Assuming that the density of water tends to vacuum (from liquid water to water vapor, and then gradually diluted until vacuum); it can be deduced that the rate of decline of the big iron ball in vacuum is exactly the same as that of the small iron ball in vacuum. .
That is to say, the big iron will land at the same time as the small iron ball.
 
第二大类型,铁球与木球
情况之一:
铁球在水中沉下去,而木球在水中浮起来,这是大家可以公认的事实。这意味着,同样的背景空间(环境),铁球与木球的属性有所不同。
情况之二:
假设水的密度趋向于真空(从液态水到水蒸汽,再逐渐稀释,直到真空);就可推导出,铁球在真空中的下降速率比木球在真空中的下降速率更快。
也就是说,铁球比木球更先落地。
The second type, iron balls and wooden balls
Situation one:
The iron ball sinks in the water, while the wooden ball floats in the water. This is a fact that everyone can recognize. This means that for the same background space (environment), the properties of the iron ball and the wooden ball are different.
Situation two:
Assuming that the density of water tends to vacuum (from liquid water to water vapor, and then gradually diluted until vacuum); it can be inferred that the rate of decline of iron balls in vacuum is faster than that of wooden balls in vacuum.
In other words, the iron ball lands before the wooden ball.
 
第三大类型,铁球与中子
情况之一:
铁球在水中沉下去,而一个中子(基本粒子)从空中垂直向水面辐射,中子将首先到达地面。这意味着,同样的背景空间(环境),铁球与中子的属性有所不同。
情况之二:
假设水的密度趋向于真空(从液态水到水蒸汽,再逐渐稀释,直到真空);就可推导出,铁球在真空中的下降速率比中子在真空中的下降速率,将小很多很多。也就是说,中子比铁球更先落地。
量子三维常数理论与经典物理学理论相比较,存在实质性的不同。量子三维常数理论让物理学的研究,更高效,成本更低。
The third type, iron ball and neutron
Situation one:
The iron ball sinks in the water, and a neutron (elementary particle) radiates vertically from the air to the water surface, and the neutron will reach the ground first. This means that in the same background space (environment), the properties of the iron ball and the neutron are different.
Situation two:
Assuming that the density of water tends to vacuum (from liquid water to water vapor, and then gradually diluted until vacuum); it can be deduced that the rate of decline of iron balls in vacuum is much smaller than that of neutrons in vacuum. . In other words, the neutron hits the ground before the iron ball.
There is a substantial difference between the quantum three-dimensional constant theory and the classical physics theory. Quantum three-dimensional constant theory makes the research of physics more efficient and lower cost.
 

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华南理工大学,硕士
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