In a quantum measurement, the question that is asked is whether the object is or is not in some particular state, and the answer is always either “yes” or “no,” never “maybe” and never, for example, “...In a quantum measurement, the question that is asked is whether the object is or is not in some particular state, and the answer is always either “yes” or “no,” never “maybe” and never, for example, “27% yes, 73% no.” Furthermore, after the measurement the system ends up in the state corresponding to the answer, so further measurements will not yield additional information.
In this expression, ω is frequency in rads, λ is the wavelength in meters, ϵ is the permittivity of the material surrounding the antenna in Fm, ...In this expression, ω is frequency in rads, λ is the wavelength in meters, ϵ is the permittivity of the material surrounding the antenna in Fm, and (r,θ,ϕ) are the coordinates of a point specified in spherical coordinates. The electromagnetic radiation from each piece is found, and the principle of superposition is the idea that the radiation from the entire antenna is the sum of these pieces.
