We have noted that there can be no input queuing if the switching fabric is n...

You have discovered a fabric which when it contains an adsorbent such as activated carbon can...

You have discovered a fabric which when it contains an adsorbent such as activated carbon can be used to make an overcoat that can protect you from toxic chemicals. In a test of such fabric, a gas stream containing 8.0 mg/L of carbon tetrachloride (CCl4) was passed through 7.71 g sample of the fabric at a rate of 1 L/min and the concentration of CCl4 in the gas leaving the fabric was monitored. The run was continued for 15 min...

A) Can P-controlled firs order unity feedback system show oscillatory response to a step input? Explain...

A) Can P-controlled firs order unity feedback system show oscillatory response to a step input? Explain your reasoning the possible values the poles can have. B) Now assume the system is not unity feedback. Consider a 1st order sensor transfer function at least two times faster than the original system. If this system is P-controlled, can it exhibit oscillatory response to a step input? Explain your reasoning Solve urgent

The questions this week is about diagonalizability of matrices when we have fewer than n different...

The questions this week is about diagonalizability of matrices when we have fewer than n different eigenvalues. Recall the following facts as starting points: • An n × n matrix is diagonalizable if and only if it has n linearly independent eigenvectors. • Eigenvectors with different eigenvalues must be linearly independent. • The number of times an eigenvalue appears as a root of the characteristic polynomial is at least the dimension of the corresponding eigenspace, and the total degree of...

Determine wether the statements are true or false 1. Suppose we have f(n) = nlgn ,...

Determine wether the statements are true or false 1. Suppose we have f(n) = nlgn , g(n) = 5n , then f(n) = O(g(n)). 2. Suppose we have f(n) = nn/4 , g(n) = n1/2lg4n , then f(n) = O(g(n)). 3. No comparison-based sorting algorithm can do better than Ω(n log n) in the worst-case 4. Quicksort running time does not depend on random shuffling.

In the class we have discussed that bacteria can evolve much faster than animals and plants...

In the class we have discussed that bacteria can evolve much faster than animals and plants because they grow much faster and have larger population sizes. To put this in a context, do you think it is possible statistically that every single base pair in the E. coli genome has experienced a mutation in a 5 ml E. coli overnight culture? We know that there are ~1010 cells in the 5 ml overnight culture and the mutation rate of E....

Problem 2 (2+3 marks). Assume your sorting algorithms have to deal with lists that can potentially...

Problem 2 (2+3 marks). Assume your sorting algorithms have to deal with lists that can potentially contain duplicates. Assume the same sorting algorithms as discussed in class / in the textbook. (a) What is the running time of Insertion Sort when all elements in a given list of length N are equal? Explain your answer. (b) Give a Θ-bound on the running time of Mergesort for the case that all elements in a given list of length N are equal...

Explain why this works: if one dimension, if we have a potential energy function U(x) along...

Explain why this works: if one dimension, if we have a potential energy function U(x) along with initial values for x and v, we can determine x and v for all subsequent times.

Suppose that we have perfectly competitive input markets (for both capital and labour) and output markets....

Suppose that we have perfectly competitive input markets (for both capital and labour) and output markets. Firm Tomato Harvesting produces canned tomatoes which it sells at $50 (it is a big can of tomatoes!). Suppose that initally the firm’s production technology is given by: f(k,l)= √l A technological innovation has occured however! A new tomato harvester has been invented by a professor at UC Davis. If the firm employs the tomato harvester, the new production technology is given by: f(k,l)...

1. We can observe the wavelengths emitted from Hydrogen. When Hydrogen electrons transition between states, they...

1. We can observe the wavelengths emitted from Hydrogen. When Hydrogen electrons transition between states, they absorb or emit a particle of light called a photon with energy E=hf. Here f is the frequency of light and h is a constant. a. How much energy does an electron in the n=1 (lowest-energy) state of Hydrogen have? Repeat for n=2 and n=3. b. How much energy is emitted if an electron in the n=3 state transitions to the n=2 state? c....

Below is a list of the decision tools we have studied this semester. For the scenario...

Below is a list of the decision tools we have studied this semester. For the scenario below, identify the best tool to use to answer the question. The A+ Cafeteria currently has 2 cashiers. Upon arrival, customers form a single line and place their food order at the next available register. Assume that customers arrive at the rate of 24 per hour. It takes an average of 3 minutes to place and process each customer's order. Assume that arrival intervals...