hcl said:Is there any evidence that shows a relationship between the angular frequency of the electron in hydrogen, and the charge-to-mass ratio
PeterDonis said:Do you think there should be such a relationship? Why or why not? Please give references.
hcl said:fH is the angular frequency of the electron in the hydrogen atom
hcl said:v is the rotation speed of the electron in the hydrogen atom
I mean the one forcasted by Bohr in the Bohr's model (multiplied by 2) . I mean the ionizing frequency of hydrogen (3.288 1015Hz) multiplied by 2 pi (multiplied by 2).PeterDonis said:What do you mean by "angular frequency"? What measurement does this correspond to?
What do you mean by "rotation speed"? You do understand that the electron is not a little billiard ball orbiting the nucleus, right?
hcl said:the one forcasted by Bohr in the Bohr's model
hcl said:the ionizing frequency of hydrogen
hcl said:Don't you have a scientific calculator to vevrify the above relation ?
Of course we have access to calculators to check that calculation. We also have access to a century of theoretical developments and experimental results since Bohr proposed his model, so we know that Bohr's model is not accurate and that any discussion involving "rotational velocity" is based on a near-total misunderstanding of the physics involved.hcl said:I mean the one forcasted by Bohr in the Bohr's model (multiplied by 2) . I mean the ionizing frequency of hydrogen (3.288 1015Hz) multiplied by 2 pi (multiplied by 2).
Don't you have a scientific calculator to vevrify the above relation ?
Relativistic charge is a concept in physics that describes how the properties of electric charge change when an object is moving at high speeds, close to the speed of light. It takes into account the effects of relativity, including time dilation and length contraction, on the behavior of charged particles.
In classical physics, charge is a fundamental property of matter that does not change with motion. However, in relativistic physics, charge is affected by the velocity and acceleration of the charged object, leading to changes in its properties such as mass and electric field.
Relativistic charge is closely related to the principles of special relativity, which describe the behavior of objects in motion at high speeds. The concept of relativistic charge arises from the need to incorporate the effects of special relativity into the classical understanding of charge.
The electromagnetic field is responsible for the behavior of electrically charged particles. In relativistic physics, the properties of this field are affected by the motion of charged objects, leading to changes in the behavior of the particles and their interactions with each other.
Yes, the effects of relativistic charge can be observed in everyday life, especially in high energy or high-speed situations. For example, in particle accelerators, the behavior of charged particles is influenced by their relativistic charge, leading to the production of high-energy collisions. However, these effects are not noticeable in everyday situations where objects are moving at much lower speeds.