Deliverable 2 - Implementation of an Enterprise Architecture

Outline a plan to create an enterprise architecture for a cloud-based web application server and SQL Database Sever. Including the necessary development environment, production environment, and implementation schedule including a critical path.

Competency

Summarize the common elements of enterprise architectures.

Scenario

You work as a developer for Solutions Inc. Your client, Universal Widgets, is planning to implement a cloud-based solution for their IoT(Internet of Things) connected devices. These devices are designed to monitor air quality in a home for the homeowner's heating and air system. These devices also are able to detect the carbon dioxide levels, presence of smoke, and notify homeowner's when to change the air filters.

The majority of Universal Widgets' customers will use this new solution. This is predicted to increase their sales and their customer base. However, because of the public safety features that are offered by this application, up-time for customers will need to be no less than 99.999% each month. Therefore, any implementation that occurs to the production environment needs to be properly tested prior to implementation.

Instructions

Develop an implementation plan for this cloud-based solution. This plan must include the following elements:

• A brief breakdown of the primary tasks needed to create a development environment, and also a full production environment.
• The critical path for both environments through to completion.
• Evaluation of the constraints and issues at the enterprise level including scenarios that demonstrate pros and cons of any implementation, software update, or change.

The numerical aperture of an instrument is 0.969. How far apart are the lines on a certain shell if they are just barely resolved when viewed with green light (548 nm)?

Use C++, Java, or Python3 to create your own algorithm to complete a computing task.

There are four steps to algorithm methodology. Discuss your algorithm design in relation to these four steps and describe how you went through each step of the methodology to create your algorithm.

From the earliest years of settlement, we see how different populations of Europeans had vastly different goals and reasons for coming to the “New World.” Cite examples of the different reasons Europeans made the perilous journey to North America and where they settled.

from chromosome inversion , please describe how to use FISH or CGH technique to determine a disease

1. write a class called football player with variables number, weight, height inside. Then make child classes for football player, one called defensive player, which will have sacks and interceptions as variables, and offensive player, which will have yards and fumbles as variables

(Multiple choice)
Which one of the following statements is true? Explain why T/F for each.
(a) In fiber reinforced composites, the dispersed phase will not have the same composition as
the matrix phase.
(b) When continuous-fiber reinforced composites are loaded longitudinally, the stress in the
fibers equals the stress in the matrix.
(c) Sandwich panels are useful because of their high weight-to-stiffness ratio.
(d) Approximately 30% of the overall strength of fiberglass is contributed by the matrix.
(e) The stiffness of aligned discontinuous-fiber reinforced composites loaded along the fiber
direction depends on the weight fraction of matrix in the composite.

1 Consider a program for the determination of Previous date. Its input is a triple of day, month and year with the values in the range

1 ≤ month ≤ 12

1 ≤ day ≤ 31

2000 ≤ year ≤ 2125

The possible outputs are “Previous date” and “Invalid input date”.

Design the test cases using the following:

1. [50 Marks] Decision table-based testing.
2. [50 Marks] Design the worst-case testing.

Show the full details to apply the testing part

1. How do facilitated transport and active transport differ? How do they look similar?

2. How do simple diffusion and facilitated transport differ? How do they look similar?

3. What is the difference between diffusion and osmosis?

How would you use the learning theory and instructional design model to develop instructional technology and the appropriate assessments?

A 1.5 kg block of wood is launched up a wooden ramp that has a 40-degree incline. The initial speed of the block is 12 m/s. The coefficient of static friction is 0.4 and the coefficient of kinetic friction is 0.20. Ignore air resistance.
A) Draw the incline with the block at the bottom of the ramp and at the top of its slide. Label with a coordinate system. List all known quantities.
B) Draw free body diagrams for the block sliding up the incline and down the incline. Label all forces and acceleration.
C) What is the normal force on the block?
D) What is the acceleration as the block moves up the ramp?
E) How far up the ramp does the block travel?
F) What is the static frictional force on the block when it stops? Is it enough to hold the block there?

A nearsighted man uses his ideally prescribed eyeglasses that have a refractive power of −2.60 diopters. He would like a prescription for contact lenses. What is the correct contact lens prescription if he normally wears his eyeglasses a distance of 2.7 cm from his eyes?

Suppose a biochemist decided to use a HEPES buffer system to purify her His-tagged protein. HEPES is a sulfonic acid with a relevant pKa of 7.5. What volume of 1M NaOH would she need to add to a 250mL solution of 20mM HEPES to raise the pH from 7.5 to 8.0 (remember the HEPES is a weak acid).

1.Briefly explain the Central Dogma of Biology.

2.Draw ribose and deoxyribose; label or circle the difference.

3.Draw a nucleotide; label the sugar, phosphate, base.

4.Name the four bases found in DNA; Which are pyrimidines? Which are purines?

5.Which base is found in RNA and not DNA?

6.Briefly explain complementary base pairing. What role do hydrogen bonds play?

7.Draw the basic structure of an amino acid dimer (two amino acids bound together); label an amine, carboxyl, side chainand peptide bond.

8.Define primary and tertiary protein structure. How does the tertiary structure depend on the primary structure?