Reference no: EM133043747

2010ODL-N Further Maths - Teesside University

Assignment 1:

Question 1. Convert the following into the number systems specified:

(a) 1101111011001₂ to octal and hexadecimal forms.

(b) 3B4E5₁₆ to denary and binary forms.

Question 2. Add the binary numbers, working in binary. Express the answer as an 8-bit number, clearly showing any carry bits.

11011110₂ + 01101101₂

Question 3. Follow the scenario and instructions clearly, and state the values as an exact value, or, correct to 2 decimal places accuracy:

(a) Given 2 complex numbers Z₁, Z₂ as:

Z₁ = 4 - 5j, Z₂ = -2 - 3j

Find: Z = 3Z₁ + 2Z₂ in Cartesian form a + b_j.

(b) The current I in an a.c. circuit is given by I = j(0.5 - 2j)/7+5j

Find the current I in polar form r∠θ.

Question 4. Convert z = -2 + j to polar form and find z⁸ using De Moivre's theorem. Plot z and z⁸ on an Argand diagram.

Question 5. The total impedance of two impedances connected in parallel is given by

1/Z = 1/Z₁ + 1/Z₂

where Z is the total impedance and Z₁ = 4 + 2j and Z₂ = 2 - 3j are the branch impedances.

Determine the current and its phase angle relative to a 110V supply voltage.

Question 6. Perform the matrix operations based on the given matrices:

(a) B^T + C

(b) 3E - 2D^T

Question 7. Given the matrix A =

(a) Find the inverse of the matrix A clearly showing all the steps leading to the inverse matrix.

(b) Show clearly using matrix multiplication that AA^-1 = I and A^-1A = I, where I is the identity matrix.

8. The system of currents i₁, i₂ and i₃ in a circuit satisfy these equations:
i₁ + i₂ + i₃ = 0
6i₁ - i₃ = 24
7i₂ - 2i₃ = 9

Solve the system using:

(a) Matrix inversion

(b) Gaussian elimination

Give the answers correct to 3 decimal places accuracy.

Attachment:- Further Maths.rar