The exact location of an electron can not be known. Electrons' locations can be merely estimated. Electron "clouds" or orbitals are general areas where an electron is likely to be found. There is always uncertainty as to where the electron actually is.
We cannot accurately predict where in the electron cloud electrons can be found because of the Heisenberg uncertainty principle. This principle states that it is impossible to simultaneously know the exact position and momentum of an electron. As a result, we can only describe the probability distribution or the likelihood of finding an electron in a particular region of the electron cloud.
Velocity is the rate of change in an object's location over time, also known as speed.
That depends on the strength of the electric field, and on the length of time the electron has been experiencing it. An electron in an electric field accelerates uniformly.
When you need to know the exact speed at an exact time.
Certain minerals can record the direction and intensity of the field as it has changed over geological time. Remnant magnetism in samples are measured to plot location of the magnetic pole in the past.
According to quantum theory, we can never know the exact location of an electron at any given time. If the electron is part of an atom, the best we can do is state the probability that the electron can be found within a given region about the nucleus. Often that information is good enough for our purposes.
In an electron cloud, which a probability range circling around the atom. Due to the Heisenberg Uncertainty Principle, both an electron's location and speed can not be known at the same time. Therefore, a range is created.
In an electron cloud, which a probability range circling around the atom. Due to the Heisenberg Uncertainty Principle, both an electron's location and speed can not be known at the same time. Therefore, a range is created.
An electron's location or momentum, but not both.
Geographers identify the exact location by using the lattitude and longitude degrees. By doing the calculations with the mentioning of greenwich time, they can obtain the exact location.
the heisenburg uncertainty priciple says that you cannot know an electron's location and speed at the same time
Absolute location is the exact place and time using the exact latitude and longitude of a place or destination.
The answer would depend on the time of year and location of the reading.
Because the electrons are in constant motion(momentum), so to find their exact location one must find this location plus momentum at the same time. It is thought to be impossible to find the exact location and momentum simultaniously, because, to find location you must stop the particle, and to find momentum the particle must be moving.
Exact time is not known, but mid afternoon.
"exact" is a relative term. If you're grandma asks, what's your exact location, you can reply with an address. If you're stuck in the middle of the ocean and require rescue you would typically provide your exact latitude and longitude. e.g: latitude: 43.95328204198018 longitude: -107.73193359375 However, since your questions is a "general" one it's difficult to be specific, so error on the side of caution. If someone asked my "exact location" I would not only respond with my exact latitude and longitude but my elevation and the time and time zone. I hope that helps.
The time of sunrise is very dependent on the date and the exact location.