Let B be the matrix for the unit square in homogenous coordinates, with its bottom left corner at (a, b), where you will choose the point (a, b) such that it is not the origin, and it is different from that of any other posts on this topic. Your goal is to find a matrix T for a linear transformation such that TB is a square with side length 4, whose bottom left corner is still at (a, b). Explain why the matrix, ⎡⎣⎢⎢⎢4 0 0 0 4 0 001⎤⎦⎥⎥⎥ will not do the job. Then show that the linear transformation you need can be found using a composition of three or more different linear transformations. Find them and compute the resulting matrix T as a product of those matrices. What can you conclude about the need for homogeneous coordinates in computer animation applications? Be sure to include your chosen point (a, b) in the Subject Heading of your post.

6.5

step-by-step explanation:

you said it was in the question

~courtney

step-by-step explanation:

we can use this expression to calculate the energy gain as a particle moves with a field or the energy loss as it moves against it. (note that it is also used to define the electron-volt, a unit of energy equal to that gained by an electron as it falls through a pd of 1 v, i.e. w = 1 ev = 1.6 10-19 c 1 v = 1.6 10-19j).in fact this expression is really nothing more than the statement that potential is the potential energy per unit charge. in this case, v= w/qis simply stating that the change in potential energy(or work done) per unit charge is equal to the change in potential (or potential difference), v.student questions: uniform electric fields2electron beamcathode+5 kvanode0 v

step-by-step explanation:

the ordered pairs for the given function are of the form