Random Walks On Hyperbolic Groups III
... x, y , z ∈ Γ, if y lies on the geodesic segment from 1 to z then for all 1 ≤ r ≤ R, Gr (x, z) ≤ CGr (x, y )Gr (y , z) Strategy: Let Cm be the max of GR (x, z)/GR (x, y )GR (y , z) over all triples x, y , z where y lies on the geodesic segment from 1 to z and d(x, z) ≤ m. Since there are only finitel ...
... x, y , z ∈ Γ, if y lies on the geodesic segment from 1 to z then for all 1 ≤ r ≤ R, Gr (x, z) ≤ CGr (x, y )Gr (y , z) Strategy: Let Cm be the max of GR (x, z)/GR (x, y )GR (y , z) over all triples x, y , z where y lies on the geodesic segment from 1 to z and d(x, z) ≤ m. Since there are only finitel ...
Argand Diagrams and the Polar Form
... 3. On an Argand diagram draw the complex number 1+2i. By changing to polar form examine the effect of multiplying 1 + 2i by, in turn, i, i2 , i3 , i4 . Represent these new complex numbers on an Argand diagram. 4. By utilising the Argand diagram convince yourself that |z + w| ≤ |z| + |w| for any two c ...
... 3. On an Argand diagram draw the complex number 1+2i. By changing to polar form examine the effect of multiplying 1 + 2i by, in turn, i, i2 , i3 , i4 . Represent these new complex numbers on an Argand diagram. 4. By utilising the Argand diagram convince yourself that |z + w| ≤ |z| + |w| for any two c ...
CH4
... 1. Construct Truth Table and evaluate both sides of eqn. 2. Make L.S. equal R.S. or R.S. equal L.S. by algebraic manipulation. 3. Reduce both L.S. and R.S. independently to the same expression. ...
... 1. Construct Truth Table and evaluate both sides of eqn. 2. Make L.S. equal R.S. or R.S. equal L.S. by algebraic manipulation. 3. Reduce both L.S. and R.S. independently to the same expression. ...
Chapter 1 Powerpoint
... Factor the left hand side as a binomial square: simplify the right hand side 5. Solve using the SQR property of equality ...
... Factor the left hand side as a binomial square: simplify the right hand side 5. Solve using the SQR property of equality ...