Being a physicist I do not know too much about the applications. But in general the time dependent Schrodinger Equation tells us how a quantum state evolves in time. I believe this might be applicable to things like flash/thumb drives, and computers in general.
The dependent value on a velocity-time graph is velocity.
You can calculate the tangent for a give time, T, as follows: Substitute the value of the time in the distance-time equation to find the distance at the given time. Suppose it is f(T). Differentiate the distance-time equation with respect to time. For any given time, substitute its value in the derivative and evaluate. That is the gradient of the tangent, v. Then equation of the tangent is f(T) - f(t) = v*(T - t)
The time of sunrise and sunset is very dependent on the date and exact location. A difference of 15 miles can change the time of sunrise or sunset by a minute. Please re-post your question with a city name or zip code. You can easily calculate the time of sunrise or sunset by visiting the web site of the U.S. Naval Observatory at http://www.usno.navy.mil/USNO/astronomical-applications/data-services/rs-one-day-us.
The time of sunrise and sunset is very dependent on the date and exact location. A difference of 15 miles can change the time of sunrise or sunset by a minute. Please re-post your question with a city name or zip code. You can easily calculate the time of sunrise or sunset by visiting the web site of the U.S. Naval Observatory at http://www.usno.navy.mil/USNO/astronomical-applications/data-services/rs-one-day-us.
The time of sunrise and sunset is very dependent on the date and exact location. A difference of 15 miles can change the time of sunrise or sunset by a minute. Please re-post your question with a city name or zip code. You can easily calculate the time of sunrise or sunset by visiting the web site of the U.S. Naval Observatory at http://www.usno.navy.mil/USNO/astronomical-applications/data-services/rs-one-day-us.
The time-independent Schrödinger equation is more general as it describes the stationary states of a quantum system, while the time-dependent Schrödinger equation describes the time evolution of the wave function. The time-independent equation can be derived from the time-dependent equation in specific situations.
The time-independent Schr
If the coefficients of the linear differential equation are dependent on time, then it is time variant otherwise it is time invariant. E.g: 3 * dx/dt + x = 0 is time invariant 3t * dx/dt + x = 0 is time variant
Time dependent forces are simply forces that change with time.
A differential equation is a measure of change. If differencing with respect to time, it is the rate of change. Location, when differentiated, gives velocity. Velocity, when differentiated, gives acceleration. There are significant applications across all aspects of science.
At a constant rate: distance = time x speed Since you are calculating the distance based on the other two numbers, I would say that distance is the dependent variable (it is based on the values of the other variables).
the distance between the solar time i.e Mean time apparent solar time is stated as equation of time. M.t-A.t=equation of time
The dependent value on a velocity-time graph is velocity.
Nothing. The time constant is a function of resistance and/or capacitance and/or inductance. Voltage does not enter into the equation, except to note that high voltage applied where it was not intended can damage components.Exception: Some capacitors exhibit voltage dependent capacitance, so the time constant in that case would be partially dependent on voltage, but that is a special case.
concentration dependent killing
Distance is dependent on time. If there is no time, there is no distance, as distance = velocity * time. As time or speed increases so will distance, therefore, if distance increases, either speed or time must increase. If either speed or time = 0, then distance will equal 0.
To calculate standard time, subtract the equation of time from the sundial time, then subtract the longitude from the answer you get.