Assignment On Financial Market And Institutions Unit Code Bfc

ASSIGNMENT COVER SHEET Student’s name (Family name) Harmawan Kristanto (Given names) Jesselynn Cindy ID number 25208403 26210673 Phone 0435082309 0416740099 Unit name Financial market institutions Unit code BFC 2000 Title of assignment Assignment 1 Lecturer/tutor Andrew Sanford / Neeru Is this an authorised group assignment? 0 Yes 0 No If this submission is a group assignment, each student must attach their own signed cover sheet to the assignment. Has any part of this assignment been previously submitted as part of another unit/course? 0 Yes 0 No Tutorial/laboratory day time Monday 15.00 Due date 11 September 2015 Date submitted 11 September 2015 All work must be submitted by the due date. If an†¦show more content†¦Ã¢â‚¬ ¢ I understand the consequences of engaging in plagiarism and collusion as described in Part 7 of the Monash University (Council) Regulations. †¢ I have taken proper care of safeguarding this work and made all reasonable effort to ensure it could not be copied. †¢ I acknowledge that the assessor of this assignment may for the purposes of assessment, reproduce the assignment and: i. provide to another member of faculty; and/or ii. submit it to a plagiarism checking service; and/or iii. submit it to a plagiarism checking service which may then retain a copy of the assignment on its database for the purpose of future plagiarism checking. †¢ I certify that I have not plagiarised the work of others or participated in unauthorised collaboration when preparing this assignment. Signature Jesselynn Harmawan Cindy Kristanto Date 11 September 2015 Privacy Statement The information on this form is collected for the primary purpose of assessing your assignment. Other purposes of collection include recording your plagiarism and collusion declaration, attending to course and administrative matters and statistical analyses. If you choose not to complete all the questions on this form it may not be possible for Monash University to assess your assignment. You have a right to access personal information that Monash University holds about you, subject to any exceptions in relevant legislation.

Sega Enterprises Ltd V. Accolade Inc. - 2178 Words

Sega Enterprises Ltd v. Accolade Inc. In the year 1989, Sega Enterprises Ltd released Sega Genesis and the game had decent security checks which allowed only the licensed games by the publisher to play on the console. However, Accolade Inc. released their games into market which could be played on Sega’s console. Accolade had to take license from Sega and pay them some fee for licensing, but that would increase the overall cost of their game making it impractical to market it at such overhead charges. So, Accolade decompiled the game of Sega Genesis and re-engineered the code in a way that it could disable the security locks on the Genesis. Sega as a counter measure introduced the TMSS (Trademark Security System) on their then latest version Genesis III, which would scan for and display their trademark on the game before playing. Accolade responded to this change by identifying the TMSS file and adding it to their games. The first lawsuit was filed by the Sega Enterprises Ltd against Accolade Inc. on the grounds of trademark infringement and false designation of origin in violation of sections 32(1) and 43(a) of the Lanham Act (1946). Later Sega even added copyright infringement to the existing case. Accolade counter acted by filing case against Sega under section 43(a) of the Lanham Act (1946). At the District Court level Sega won the lawsuit, but Accolade took the case to the next level by appealing the case at the Ninth Circuit of U.S. Court of Appeals. Accolade wonShow MoreRelatedExploring Corporate Strategy - Case164366 Words   |  658 Pagesregulatory This case was prepared by Sarah Holland. It is intended as a basis of class discussion and not as an illustration of good or bad practice.  © K.S. Holland, 2007. Not to be reproduced or quoted without permission. Photo: AstraZeneca UK Ltd ECS8C_C02.qxd 22/10/2007 11:53 Page 609 THE GLOBAL PHARMACEUTICAL INDUSTRY 609 BOX 1 The drug development process it becomes clear that pharmaceutical RD is a very high-stakes game. Given the enormous risks and considerable

Keny Economic Engine And Key Driver Of Strength - 1136 Words

Kenya is one of the top economic engine and key driver of strength in Eastern Africa. Its strong private division and business services contribute greatly to the growth in the region. Kenya is home to some of the most fascinating natural wonders and people in the world. Kenya is reflected as a wealthy and culturally diversed country. Although Kenya’s economic climate is progressively improvising, their education and the increase in population growth has cause major problems for Kenyans which is the primary reason for their lack of human development. Kenya was ranked 145 out 187 nations on the Human Development Index. â€Å"Kenya has been ranked lowly in a UN global survey on well-being and quality of life beyond annual economic growth rates† (Masha, 2013). According to the Human Development Index, Kenya has been declining on the developmental scale ever since 1980. Most of Kenya’s population lives under extreme poverty which is an average of 30 percent of the country. These facts will show a drastic picture for Kenya and their fight against poverty. Believe it or not, Kenya has one of the highest growing population in the world. â€Å"As a result of the booming population growth, the country faces a serious unemployment problem, which the government admits will worsen over the next decade despite its best efforts† (Mwembe, 1989). Unemployment is increasing more every day which unfortunately means poverty is rising. Currently more than half of Kenyans live under the poverty

Design Of The Cooling System And Indoor Air Quality - Samples

Question: Discuss about the Design Of The Cooling System And Indoor Air Quality Of A Single Residential Dwelling. Answer: Introduction Residential dwellings are to be properly designed in order to serve the intended purpose; mainly providing conducive environment for the occupants. Admittedly, a properly designed dwelling will offer a long-lasting impact on the dwellers and will even affect the behavior of the occupants in the long run. Notably, there are building services that must be incorporated into the building to meet the design requirements. The room air quality is therefore a fundamental aspect of the building services engineering. During summer, when room temperatures are likely to hit unimaginable highs, it is often imperative to provide artificial cooling to the room. Now, a cooling tower will be used for this purpose. This report presents a technical design work on the said building services engineering facility. Top on the list, is the fact that the room thermal performance must be in tandem with the environmental conditions of the area in which the building is to be seated. Majorly, the design work is split into three parts; the cooling tower pump design; Deriving and maintaining the indoor air quality and building psychometrics where aspects such as air temperature, humidity and general air quality are considered. In designing the cooling tower pump, the general dimensional characteristics of the building is needed. Notably, the information that has been provided to facilitate the design include: the suction pipe nominal diameter is 200mm with the cooling tower being on the 6th floor. The elevation to 6th floor from basement is 20m. The suction side has the globe valve, strainer, a horizontal pipe run 200mm in diameter; while the discharge side has got the gate valves, long radius 90o elbow; 1 off globe valve, 1 off strainer, 20m long 200mm diameter pipe run. The cooling tower is to be installed in a residential single dwelling with 3 bedrooms, 1 dining, 1 kitchen, a home office and a toilet. Overly, the basic size of the house plan is 14 000mm x 15 000mm. On the other hand, the second and third portion of the project will be to determine the critical parameters that must be maintained in a room for proper indoor air quality. Psychometric analysis will come in handy in this section. Specifically, the following are determined: R and U values for the window, roof and floor which would then assist in determining the values of Q(sh); Q(lh) and outside airflow required per area. Here, the design standard AS 1668.2-2012 shall be used. Lastly, we shall use the psychometric chart to determine the outside airflow indoor condition point; mixing point Db and Wb hence outside air SH and LH will be calculated based on the provide room temperature. Importantly, therefore, the design work is aimed at deriving a workable system within the interiors of the room. Certainly, improvements to the system will be implemented only after several test trials are done. Design Work Part 1: Cooling tower pump The following parameters are determined: Pump head, Q, NPSH, diameter, Power, pump selection, Head loss, water vapor pressure, Static head and atmospheric pressure: Pump head= suction head +delivery head= 20m Q= Part2: Indoor Air Quality Check the attached excel file Part3: Psychometric chart Based on provided catalogue (ducted split unit) Select your indoor and outdoor unit and power requirement Indoor power requirement=4.17kW Rated power requirements= 12.5kW Airflow rate= 900 Weight (indoor)= 65kg Weight(outdoor)= 98kg On psychrometric chart show the outside air point (1) On psychrometric chart show indoor condition point (2) On psychrometric chart show the mixing point (3) Calculate mixing point Db and WB Provide all values (DB, WB, RH, h, specific volume, moisture content of the points 1, 2, 3 including the units. 11. Based on provided room temperature calculate the required outside air SH and LH.