3.2 Constructible Numbers
... fields Q(i, α1 , ...., αn ) is closed under complex conjugation. So let’s find these quadratic polynomials. Suppose you have just drawn a line or a circle, and the field so far is F = Q(i, α1 , ..., αk ) and F is closed under complex conjugation. Then you are looking at an intersection point α, and ...
... fields Q(i, α1 , ...., αn ) is closed under complex conjugation. So let’s find these quadratic polynomials. Suppose you have just drawn a line or a circle, and the field so far is F = Q(i, α1 , ..., αk ) and F is closed under complex conjugation. Then you are looking at an intersection point α, and ...
Logical Operations on Arrays
... Applied to arrays, this solves problems such as… Find where the positives are positioned Count the number of negatives Delete the negatives, or maybe replace them by zeros Replace letters by other letters In Matlab, these can easily be solved in 1 or 2 lines, without the use of any loop and if ...
... Applied to arrays, this solves problems such as… Find where the positives are positioned Count the number of negatives Delete the negatives, or maybe replace them by zeros Replace letters by other letters In Matlab, these can easily be solved in 1 or 2 lines, without the use of any loop and if ...
Quantum Measurement Theory on a Half Line
... To describe the Measuring Process We have to know the follows to describe the measuring process physically. 1. Hamiltonian on the combined system between the measured system and probe system. 2. Evolution operator on the combined system from the Hamiltonian 3. Measuring time of the measuring proc ...
... To describe the Measuring Process We have to know the follows to describe the measuring process physically. 1. Hamiltonian on the combined system between the measured system and probe system. 2. Evolution operator on the combined system from the Hamiltonian 3. Measuring time of the measuring proc ...