(2) Consider the map given below: (a) Construct a graph for the map. (b) Using the reduction theo...
Find the Laplace transform of the periodic function
whose graph is given below.
(Click on graph to enlarge)
________
______
______
_________
= _________
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Using FTLM. a) Let . Use linear algebra to prove that there is a polynomial such that p + p' - 3p'' = q. Hint: consider the map defined by Tp: p + p' - 3p'', and use FTLM. b) Let be distinct elements of . Let be any elements of . Use linear algebra to prove that there is a such that Hint: consider the map defined by . You can use any facts from algebra about the solution...
Using a compass and straightedge only, do the following:
a.) Construct the figure
b.) Write out step by step how to construct the figure
1.) Using a compass and straightedge only, construct a segment
that is of length . Note, a segment of length 1 is
given below and must be used.
**Consider the theorems where a+b, |a-b|, ab, 1/a, \sqrt a are
constructible lengths.
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Using a compass and straightedge only, do the following:
a.) Construct the figure
b.) Write out step by step how to construct the figure
1.) Using a compass and straightedge only, construct a segment
that is of length . Note, a segment of length 1 is
given below and must be used.
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3. Use Kuratowski's theorem to determine whether the given graph is planar. Construct the dual graph for the map shown. Then, find the number of colors needed to color the map so that no two adjacent regions have the same color. 4. a) b) CCE 5. Show that a simple graph that has a circuit with an odd number of vertices in it cannot be colored using two colors.
3. Use Kuratowski's theorem to determine whether the given graph is...
show all the work
a9) What is meant by coloring the vertices of a graph? Define the chromatic number of a graph. a) What is the famous 4- color theorem? b) Translate the following map into a graph G and find χ (G). You may draw G embedded in the map or alongside the map. No need to consider the outside region. 了 jo
a9) What is meant by coloring the vertices of a graph? Define the chromatic number of...
Consider the map
defined
A) Compute
B) Verify that F is a linear transformation.
C) Is F one-to-one (injective)? Justify your answer.
D) Is F onto (surjective)? Justify your answer.
E) Describe the kernel (null space) of F.
F) Describe the image (what the book calls the range) of F.
G) Find one solution
to the equation
H) Find all solutions
to the equation
G:P2 → P3 G(p(t) = P(dx F(t + + 5) We were unable to transcribe this...
Find a polynomial p(x) of degree 2 that satisfies , , and where a, b, c are given constants and are two different points. Thank you! We were unable to transcribe this imagep(m) = a We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
The figure below shows a graph of the derivative
of a function
. Use this graph to answer parts (a) and (b)
(a) On what intervals is
increasing or decreasing?
(b) For what values of
does
have a local maximum or minimum? (It asks to be specific).
Only the
values are needed (not ordered pairs).
We were unable to transcribe this imageWe were unable to transcribe this imagepe & Bl apr derivative f' of a function f. Use this graph...
15. Consider the reaction 2 NO2(g)
N2O4(g) .
(a) Using Gf
N2O4(g) = 97.79 kJ/mol and Gf NO2(g)
= 51.3 kJ/mol, calculate G° at 298 K.
kJ
(b) Calculate G at 298 K if the partial pressures of
NO2 and N2O4 are 0.35 atm and 1.60
atm, respectively.
kJ
16. Consider the reaction given below.
H2(g) + F2(g)
2 HF(g)
(a) Using thermodynamic data from the course website, calculate
G° at 298 K.
kJ
(b) Calculate G at 298 K...