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MAT3701 Assignment 2 Complete Solutions UNISA 2024 Due date 16 August 2024 LINEAR ALGEBRA NEW £11.30   Add to cart

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MAT3701 Assignment 2 Complete Solutions UNISA 2024 Due date 16 August 2024 LINEAR ALGEBRA NEW

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MAT3701 Assignment 2 Complete Solutions UNISA 2024 Due date 16 August 2024 LINEAR ALGEBRA NEW

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By: moipatimokoena • 3 months ago

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MAT3701
ASSIGNMENT 2
FULL SOLUTIONS
Due date: 16 August 2024, Friday.
Complete Solutions
LINEAR ALGEBRA

UNISA
2024

,SOLUTION:

We are given ||T(x)|| = ||x||, for all x.

We know <x,x> = 0 if and only if x = 0 and <T(x), T(x)> = 0 if and only if T(x) = 0.

Therefore, T(x) = 0 if and only if x = 0.

So N(T) = {0} and therefore, T is one to one.




SOLUTION

To prove that ∣∣⋅∣∣ defined by ∣∣(a,b)∣∣=max{∣a∣,∣b∣} is a norm on R2, we need to verify that
it satisfies the three properties of a norm:

1. Non-negativity and definiteness:

∣∣(a,b)∣ ∣≥0 and ∣∣(a,b)∣∣=0 ⟺ (a,b)=(0,0)

2. Homogeneity (or absolute scalability):

∣∣c⋅(a,b)∣∣=∣c∣⋅∣∣(a,b)∣∣for allc∈R

3. Triangle inequality:

, ∣∣(a1,b1)+(a2,b2)∣∣ ≤ ∣∣(a1,b1)∣∣ + ∣∣(a2,b2)∣∣

Let's verify each property step by step.

1. Non-negativity and Definiteness

For any (a,b)∈R2:

• Non-negativity: ∣∣(a,b)∣∣=max{∣a∣,∣b∣} ≥ 0 because the absolute values of real
numbers are always non-negative.

• Definiteness:

o If (a,b)=(0,0), then ∣∣(0,0)∣∣=max{∣0∣,∣0∣} = 0.

o Conversely, if ∣∣(a,b)∣∣=0, then max{∣a∣,∣b∣}=0 implies that
both ∣a∣=0 and ∣b∣=0, hence a=0 and b=0. Thus, (a,b)=(0,0).

2. Homogeneity

For any (a,b)∈R2 and c∈R:

∣∣c⋅(a,b)∣∣=∣∣(ca,cb)∣∣=max{∣ca∣,∣cb∣}=∣c∣⋅max{∣a∣,∣b∣}=∣c∣⋅∣∣(a,b)∣∣

3. Triangle Inequality

For any (a1,b1) and (a2,b2)∈R2:

∣∣(a1,b1)+(a2,b2)∣∣=∣∣(a1+a2,b1+b2)∣∣=max{∣a1+a2∣,∣b1+b2∣}

We need to show that:

max{∣a1+a2∣,∣b1+b2∣}≤max{∣a1∣,∣b1∣}+max{∣a2∣,∣b2∣}

Consider the two cases for the maximum of ∣a1+a2∣ and ∣b1+b2∣:

1. If ∣a1+a2∣≤max{∣a1∣,∣a2∣}:

∣a1+a2∣≤∣a1∣+∣a2∣≤max{∣a1∣,∣b1∣}+max{∣a2∣,∣b2∣}

2. If ∣b1+b2∣≤max{∣b1∣,∣b2∣}:

∣b1+b2∣≤∣b1∣+∣b2∣≤max{∣a1∣,∣b1∣}+max{∣a2∣,∣b2∣}

Thus, in both cases, we have:

max{∣a1+a2∣,∣b1+b2∣}≤max{∣a1∣,∣b1∣}+max{∣a2∣,∣b2∣}

Therefore, the triangle inequality holds.

Since all three properties are satisfied, ∣∣⋅∣∣=max{∣a∣,∣b∣} is indeed a norm on R2.

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