HIGH LEVEL MATHH SPSS- R STUDIO EXPERT Mathematics homework help

HIGH LEVEL MATHH SPSS- R STUDIO EXPERT Mathematics homework help

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MATH EXPERT 

STAC70 Statistics & Finance I

Assignment 1

Due date: Feb 4, 2021 (by 11:59pm). Late submissions will be penalized.

Note: For some problems it is more convenient (or even necessary) to use the computer to
perform the computations. If you do, perform all computations in R. Include your codes and
outputs in your submission.

1. Consider the single period binomial model with d < 1 + r < u. Prove from first principles
(i.e., without using the fundamental theorems of asset pricing) that there is a unique
equivalent martingale measure.

2. Consider the single period binomial model. Suppose r = 0.02, u = 1.05, d = 0.9 and
S0 = 50. Consider a put option on the stock with strike price K = 49.

(a) Compute the equivalent martingale measure (qu, qd).

(b) Find the no-arbitrage price of the claim at time 0.

(c) Find the replicating portfolio.

3. Consider a single period binomial model which satisfies the no-arbitrage condition d <
1 + r < u. Consider two contingent claims C and C′ where

(cu, cd) = (1, 2) and (c

u, c

d) = (1, 4).

You are given that the no-arbitrage price of C is 1.5, and the no-arbitrage price of C′ is 2.

(a) Find the interest rate r. Hint: Use the two given claims to generate other cashflows.

(b) Find the risk-neutral probabilities qu and qd.

4. Write down two different sets of parameters (u, d, r, S0) of the single period binomial
model which give the same equivalent martingale probabilities. Must they give the same
prices for all contingent claims? Explain your reasoning.

5. Consider the trinomial model in Example 2.1 of the lecture notes: r = 0, S0 = 1, u = 3,
m = 2 and d = 1/2. Characterize all contingent claims that can be replicated. That is,
give a general expression of the payoffs cu, cm, cd that can be replicated.

6. Consider a single-period model with 4 states and 3 risky assets (apart from the risk-free
asset). Write Ω = {ω1, ω2, ω3, ω4}. Assume that

(S
j
0)0≤j≤3 =

[
1 1.7 2 2

]
and

(S
j
1(ωi))1≤i≤4,0≤j≤3 =




1 1 3 1
1 2 3 3
1 2 1 1
1 1 1 3


 .

1

(Here the column index j runs from 0 to 3. So the risk-free interest rate is 0.)

(a) Show that the model is arbitrage-free and complete.

(b) Consider the contingent claim

(C(ωi))1≤i≤4 =




1
0
0
1


 .

Find the no-arbitrage price of C at time 0 and find a replicating portfolio. Is the
replicating portfolio unique?

7. Consider the gambling strategy in Example 3.2 of the lecture notes, where the initial
wealth is 0. Find the exact distribution of the wealth M10 at time t. (This means finding
the probability mass function P(M10 = x) for the possible values of x.) Verify numerically
that E[M10] = 0.

2

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