Every hospital needs an online system where by it can
accommodate the patients comfortably and avoid any confusion to the doctors
regarding their work. There should be a system where the patients are
categorized under insurance policy and non pol
You can build your entire website online nowadays. Theres no need to install anything anymore. Just
log into the web design software like how you login to gmail and youre ready to start. Anyone can do
this even if youre not computer savvy. Website builder
Requirements discovery session for buying a new Phone:
Analyst: So what is the operating system you are looking for?
Analyst: Do you have in mind a particular brand?
Analyst: What screen size do you prefer?
User: Bigger th
MSIS 5653 Exercises E1 (Introduction; M1)
Our class is a learning community. In the first exercise, we will get to know each other and
understand the context of systems analysis and design.
1. Create a Brightspace profile
On your Brightspace home page, yo
MSIS 5653 Exercises E5 (Data Modeling and Analysis; M8)
1. Interpret the following E-R diagram
2. Create a fully attributed E-R model for a course enrollment system in which the entity
types are: student, course, department, instructor, and section. Be su
MSIS 5653 Exercises E4 (Modeling system requirements with use cases; M7)
1. You are interested in building an online game store for purchasing or renting games.
Develop a simple use-case diagram for this scenario while talking with a potential
user. At th
MSIS 5653 Exercises E2 (Systems thinking, Problem-solving, IS Development; M3)
1. Consider any system for problem analysis. It need not be computer-based. At this stage,
you are not solving the problem but trying to understand it. A system is virtually
If the mass of a simple pendulum is doubled but its length remains constant, its period is multiplied by a factor of
4. Which of the following is true for a system consisting of a mass oscillating on the end of an
AP Physics B HW #15 (Simple Harmonic Motion)
Which of the following is true for a system consisting of a mass oscillating on the end of an ideal spring?
(A) The kinetic and potential energies are equal to each other at all times.
(B) The kinetic and po