How To Write a Small Design Proposal

Title of Proposal in Initial Capital Letters:
Times New Roman (18 point Boldface)

  

Name 1

Department Affiliation,

Submitted to—  

Name(s) of Project Advisor or Sponsor

Department Affiliation,

_________________________________________________________________________

Contents

Executive Summary                                                                                                                3

Statement of Problem                                                                                                             4

Objectives                                                                                                                             X

Technical Approach                                                                                                               X

            Identifying Needs for Design                                                                                      X

            Identifying Target Specifications                                                                                 X

            Generating Design Concepts                                                                                      X

            Selecting Design Concept                                                                                           X

Conclusion                                                                                                                             X

References                                                                                                                             X

_________________________________________________________________________ 

Executive Summary

           

            In a half page or less, summarize the main reasons for performing the design and the scope of the design that your group attends to achieve. Typically, all the sentences in a proposal’s summary can be found in one form or another in the sections that follow. The purpose of the Executive Summary is to give the reader an overview of what the design need is and what design is being proposed to fill that need. Because of its content and location, this section is the most widely read section of the document. For that reason, the section should be well written and carefully proofread.

            Headings of sections are 14 points, flush left, and boldfaced. Use initial capitals. A good typeface for the heading is Arial, because it holds boldfacing well. To preserve hierarchy, allot two line skips before the heading and one line skip after. For a persuasive document such as a proposal or formal report, your paragraphs should average about 6-10 lines. You may have an occasional short paragraph (fewer than 6 lines) and an occasional long paragraph (11-15 lines). Be careful about having paragraphs that go more than 15 lines.

            Indent all paragraphs. Scientific American, National Geographic, and all major book publishers in engineering and science indent paragraphs. You should do so as well, unless the output form of the document, such as email or the World Wide Web, does not support a paragraph indent. Also, you may place a small amount of space, such as 6 points as in this document, between paragraphs, but you probably should not place more spacing than that. Too much vertical spacing between paragraphs upsets the visual hierarchy for the headings and subheadings.

Statement of Problem

              This section, sometimes called the “Introduction,” establishes the need for your design. Granted, your main audience in the proposal, the advisor of your project, understands the need, but that audience is not yet convinced that you fully understand the need. In this section, you will make assertions about the problems that have created the need for the design you are proposing. In your senior design course, those problems will range from reducing pollution to helping victims of spinal injuries to improving the durability of parts in gas turbine engines. Do not just make the assertions—rather, back up the assertions with evidence. That evidence generally will be reference listings from journal articles, books, or other sources that are well respected. An example would be Houghton and Woodwell [1].  The evidence could also be surveys or testimonies of users.

            In this section, you typically do not discuss the design solutions that you propose. Rather, you establish the problem or problem so that when you discuss the proposed designs in the following sections, the reader is prepared. Please indent all paragraphs and do not skip a line between paragraphs in the same section or subsection. Rather, you may place a little space between paragraphs as done in this template (6 points), but you probably should not place more spacing than that.

 Design Objectives

            This document proposes…here you formally state what you propose to design. Often, the design has two to four specific objectives. These you might consider listing vertically as follows:

      (1)  first design objective,

      (2) second design objective, and

      (3) third design objective.   

A reason that a vertical list is appropriate here is that readers often return to this section to review those objectives. Having the objective in a vertical listing makes it easier to find. If your design objectives are complicated and depend on variables, consider placing them into a formal table, which would be introduced by name: Table 1, Table 2, and so forth.

            In this section, you would present text that discusses more fully what you mean by the different design objectives. That explanation would include a discussion of not only what you intend to do, but also a justification of what you will not do (in other words, what your audience might assume that you will do). You might consider having a paragraph for each objective. Adopt the same paragraphing format as discussed in previous sections.

            Note that if you have done a good job in the “Statement of Problem” section, then all the design objectives should make sense to the audience. Avoid having more than four objectives. Lists more than four are often not read. To avoid having more than four, you might consider grouping two or more objectives.

Technical Approach

            This section discusses how you will obtain the objectives presented in the previous section. This plan should follow a logical sequence. One such sequence is given in the subheadings below. Please make sure that you have a transition paragraph between the heading “Technical Approach” and the subheading “Identifying Customer Needs.” 

Identifying Need for design

            Here you would place paragraphs that explain how you identified the need for the design or how you will identify the requirements for the design. Adopt the same paragraphing format as discussed in previous sections.

Identifying Target Specifications     

            Here you would place paragraphs that explain how you targeted the specifications or how you will target the specifications. Adopt the same paragraphing format as discussed in previous sections.

Generating Design Concepts

            Here you would place paragraphs that explain how you generated the design concepts. Please identify all of your design concepts in this subsection. You might consider placing those concepts into a table with one column giving a short summary of the concept. Adopt the same paragraphing format as discussed in previous sections.  In this subsection, you should probably discuss at least three concepts, giving perhaps a paragraph to each.

Selecting Design Concept

            Here you would place paragraphs that explain how you selected the design concept. In addition, you should also identify what alternative design concepts you have selected for the project. Adopt the same paragraphing format as discussed in previous sections.

References

1.   Houghton, Richard A., and George M. Woodwell, “Global Climatic Change,” Scientific American, vol. 260, no. 4 (April 1989), pp. 39–40.

2.   Fox, R.W., and A.T. McDonald, Introduction to Fluid Mechanics(New York: John Wiley & Sons, 1978), pp. 242–245.

3.   Varian Corporation, "Smithsonian Researchers Use High-Tech Digital Imaging Device to Study Collections," http://www.varian.com/(Palo Alto, CA: Varian Corporation, 13 February 2002).

HOW TO WRITE A TECHNICAL REPORT IN ENGINEERING

 

ABSTRACT

Mechanics of writing a technical report is explained in a pseudo report format. The purpose of this pseudo report is to explain the contents of a typical engineering report. It can also be used as a template for an actual engineering report. With some adaptation, the format can be extended to other type of technical writings as well.

ACKNOWLEDGEMENTS

The author would like to acknowledge nobody for input in the preparation of this pseudo

report. However, he would like to thank John Chokudeno for lending his name to this report. The name, however, is fictitious but with significance that is left for the reader to ponder. The name of the writer of this report is actually Lovemore Gunda.

INTRODUCTION

Contrary to current layman thinking that engineering works only involve working with machinery, many tasks performed by an engineer involve writing. Written communication, in fact, is an integral part of engineering tasks. The ability to write a technical report in a clear and concise manner is a mark of a good engineer. An engineer must be able to translate the formulae, numbers, and other engineering abstractions into an understandable written form. There are uncountable variations in engineering report format. Each group, institution company may have its own “standard” format to follow. This report is being offered as an example of the kind of information and progression order that should be present in a sound technical report. There are certain elements common in most engineering writings. These elements can be seen in any typical engineering report. A technical report must inform readers of the reasons, means, results, and conclusions of the subject matter being reported. The mechanics and format of writing a report may vary but the content is always similar.

EXPERIMENTAL DETAILS

Many engineering writing is centered on reporting of experimental works. In such a case,

there should be an “Experimental Details” section in the report. The information to be included in the experimental details section is:

1 Equipment used in the experiment. List the equipment name and model number, e.g.,

Instron universal testing machine Model 4300.

2 Testing conditions. List environmental condition if it is applicable. Use and refer to

figures to explain test set-ups. Figure 1 shows the test set up of nothing

3 Testing parameters. 

4 If the test parameters are to be changed as a part of the experiment, list the different

parameters in a table format.

RESULTS AND DISCUSSIONS

Since this report is not a real report, there is no result to report. Table 2 list the “no result”

that would have been in an actual report. Figure 2 shows the plot of Quantity 1 versus Quantity

Graphs and figures should be used as necessary. Results can be reported separately before they are discussed or they can be reported as they are being discussed. Choose whichever way that is more suitable to the nature of the data being reported.

SECTION DESCRIPTIONS

The following is a section-by-section description of the parts in a technical report. As

mentioned previously, not all of the parts may be needed in a given report.

Letter of transmittal

A letter of transmittal is an optional part of a report. It is a matter of courtesy to include

one if the report is being submitted for an official purpose. A letter of transmittal is addressed to the person the report is intent to reach. It should include the name of the author, affiliation, title of the report and purpose for its submittal. If included, a letter of transmittal will be on a separated sheet of paper not bounded to the actual report.

Abstract

An abstract of a technical report briefly summarizes the report. It should describe motivations, methods, results, and conclusions. Be concise in the abstract.

Trial #             Quantity 1                 Quantity 2

[unit]                           [unit]

1                      4.0                                          4.9x10^-2

2                      3.2                                           4.5x10^-2

3                      2.8                                           4.4 x10^-2

Aone-paragraph summary of the report. Ideally, an abstract is one paragraph long. Have a words limit, e.g., maximum 500 words, in mind when writing an abstract.

Table of Contents

As the name implies, Table of Contents is the list of what is in the report. Major sections

of the report must be listed with page numbers. Second and third level headings may also be listed as appropriated. Think of revising the structure of the report if fourth level heading is important enough to be listed in the Table of Contents.

“Index and Tables…” feature in a word processor is the quickest way to automatically build the Table of Contents in a report.

List of Figures and Tables

This section contains two related but separate lists. List of Figures contains the listing of

all the figures (drawings and graphs) that appear in the report. They are listed in consecutive order that they appear in the report with figure captions and page number.

List of Tables is similar to the List of Figures but for all the tables that appear in the report.

List of Symbols

This list is optional. It can be used if the report contains a lot of formulae and symbols.

The readers often appreciate a list explaining the sympols used in the report.

Acknowledgements

The author(s) must acknowledge every person or agency involved in funding, guiding, advising, and working on the project that are not part of the authoring team. Failure to acknowledge someone contributing to the project is a serious breach of etiquette and may be construed as plagiarism, a very serious offense. Traditionally, editor, proofreader, and fact checkers are not included among those acknowledged.

Introduction

The beginning of the introduction should quickly explain the importance of the experiment being reported. Simply say that something is important is not adequate. The author must make a case for it. If there is no separate “Technical Background” section in the report, this section is where the necessary concepts that were applied in order to obtain the results are explained. An assumption must be made regarding the technical level of the readers. Assume that the readers already possess technical ability to understand the material then present the technical information accordingly. Do not attempt to write an introductory text on the subject. Nor should the writer assume that the readers are experts in the subject.

Experimental Details

This is the section where details of the experiments or research conducted are discussed.

The descriptions maybe in paragraph form, list form, or a combination of both. Think of

experimental details section as a recipe in a cookbook. The description must contain enough details to enable someone else to duplicate the experiment. Engineering and scientific experiment must be repeatable and verifiable.

Results and Discussions

Had this been an actual report, the results should be reported in table or graph format.

Report only the final results. Raw data and intermediate results that are not central to the topic of the report can be placed in the Appendix if needed.

The Results and Discussion section should be the most substantial part of the report. This

is where the results of the experiment are reported and discussed. Any significance in the work reported here must be made clear by detailed discussions. Consider this section to be the “meat” of the report while other sections constitute the rest of the “ingredients”.

Conclusions and Recommendations

Conclude what was discussed in the Results and Discussion section. Do not conclude anything that had not been discussed. Think of the conclusion as a short restatement of important points being presented in the report. Once conclusions are made, make some recommendations as to the utilities of those conclusions. Explain how useful the methodology and the results are. Mention restrictions or limits pertaining to the use of the results. For example, “The results reported here only apply to the second full-moon night a month (blue corn moon) and not any other night.” Suggest what the next step in the study should be to overcome the limitation or advance the study further. Both conclusions and recommendations may be in the form of descriptive paragraphs or running lists. Whichever the format is chosen, apply it consistently for both the conclusions and the recommendations.

References

Giving proper credit to originator of an idea is very important. Any idea, formula, etc.,

not originating from the author must be cited. It is unlikely that a report is so original that it is not built upon any previously discovered knowledge. A reference section is a required

component in any technical report. Failure to reference prior works may be interpreted as

claiming those works to be your own. Plagiarism is one of the most serious offences for

engineering and scientific professions. A sanction from your colleagues for this offence is

enough to end one’s professional career. References must be attached to specific formulae, pages, or passages in the report. They are numbered consecutively according to the order that they appear in the report. Use superscript numbering or square bracket to denote a reference. Part of the source material being referenced must also be specific. It must refer to specific formula, page, passage, or idea in the source material being cited.

Any work, formulae, or discussion that is a common knowledge in the field does not need

to be referenced. For example, it is a common knowledge for engineers that F = ma. There is no need to reference Newton for this. This rule applies to common formulae that can be derived or are well known by people in the field also.

See References section for the format of references from books, essays, journals, World

Wide Web, and personal communications.[1,2,3,4,5] A particular technical journal may have its own format for the authors to follow. The information to be included in the references, however, is always of the same nature as what is presented.

Appendices

In is imperative that the way you determine the result from the raw data be made clear.

Others should be able to duplicate the experiment according the instruction provided in the

“Experimental Details” section and reduce the data according to the “Sample Calculations” in the Appendix to obtain results similar to what is reported. Other supporting information that is not central to the main points to be made in the report is placed in separate appendices as needed. Consider carefully the necessity of including the raw data in your report. Include one set of the raw data for example calculation is adequate for most purpose. Listing pages and pages of numbers that nobody can decipher is excessive and likely not count as a good credit to the author. Photocopied text and references are also inappropriate since doing so may be a copyright violation. Retracing drawings from other sources is not acceptable for the same reason. Direct copy of materials from other sources must be accompanied by explicit permission from the

copyright holders of those materials.

MISCELLANEOUS DESCRIPTIONS

There are many other points that should be considered in writing a technical report that

apply to the whole report. The points presented here are, by no means, exhaustive nor

authoritative. They are merely suggestions. Major or first level headings should start on a new page unless two or more headings can fit on a single page. Think of a heading as a start of a new chapter in a book. A new chapter always starts on a new page. That being said, this pseudo-report does not follow the stated guideline too rigidly. 12 points, serif typeface such as Times is standard for report writing. Keep color usage to a minimum if at all. Black text and black or gray-scale figures are adequate for most technical reports. Do not use san serif font such as Arial or fancy font such as Script in writing the body of

a technical report. Serif fonts are best for long text in a book format. San serif fonts are designed for headlines or presentation composing of short phrases or lists. Try to avoid all capital letters in the body of the report. It is an equivalent to “shouting” in writing.

Contractions are not used in formal writing. For example, use “It cannot be said that …”

instead of “It can’t be said that …” Similar line of reasoning applies to the use of abbreviation. Consider using it sparingly. Fully type of “versus” instead of “vs.” does not require extraordinary effort with the use of a computer yet will keep the writing easily readable. Use “Figure” instead of “Fig.” and “Table” instead of “Tab.” will spare the reader of having to translate the abbreviations while reading. If abbreviations were used, use them consistently through out the report. For example, do not switch among “versus”, “vs.” and “vs”. Note that an abbreviation is followed by a period, e.g., “vs.” not “vs”.

Many engineers and scientists use acronyms in their writing without giving it a second

thought. If the target audience were definitely people in the exact field, acronyms would present no difficulties. As a matter of courtesy though, consider writing out the full name with acronym in parenthesis the first time that name appears in the report. Then use the acronym in any subsequent occurrences. For example, “My corporate counsel wants to talk to you about your intellectual property (IP) violation.” Following this convention will prevent any confusion that may arise when one acronym having more than one possible meanings, e.g., “intellectual property (IP)” versus “internet protocol (IP).”

1-inch on all sides is standard for margins in a loose-leaf report. Use 1.25 to 1.5 inch left

margin for a bounded report. If the report is to be graded, type on one side of the page only and use double space for line spacing. This leaves room for instructor’s comments.

A formal report is written in third person. For example, “An experiment on something

was conducted…” instead of “We did this experiment on…” Avoid overly complicated or

doubly passive sentences. Many modern authors of technical reports forgo third person narrative altogether. Equations and formulae are numbered consecutively in the order that they appear in the report. Equation is centered on the page with equation number on the side followed by the explanation of the symbols used in the equation. Think of the equation and the explanation as one sentence. For example,

V = 4/3 ðr3 [1]

where, V = volume of a sphere

r = radius of a sphere.

Note a period marking the end of a sentence after the second “sphere” but not the first one. A particular figure, table, equation, or heading is treated as proper noun and is referred to as such in the report. When a figure is being referred to, consider that it is being called upon by its name. For example, “As can be seen in Figure 5…” not “As can be seen in figure 5…”

Tables and figures are listed separately in the table of contents. Each group is numbered

consecutively in order appearance in the report. In any case, a table or a figure must come after the text that refers to it. Tables are always at the bottom of the page but figures may appear any where on the page with or without text on that same page. For a short report or a journal article, it is acceptable to put the tables and figures at the end of the report.

All tables and figures must include captions. A caption is a description explaining the

table or the figure. A caption must be self-explanatory. For example, “Table 4 Test parameters for dust balls collection experiment” is acceptable but “Table 4 Test parameters” is not. Engineering report normally uses only horizontal lines to denote sections in a table. The use of vertical lines is avoided since they may be misinterpreted as engineering markings. Figures may include schematic diagrams, pictures, or graphs.

The main type of graphs used in reporting engineering test results is scatter plot. A scatter plot treats both x and y data as values. A similar looking graph type, a line plot, is not normally used to report scientific data. In line plot, the x data are treated as names or categories not values. Data presented as a graph are plotted without lines connecting the data points. A line connecting two data points on a graph implies that intermediate values can be read directly off the line. Use curve-fitting line to show a trend in the data instead of connecting points. When using a curve fit, the fitting equation and the R2 (indication of how good the fit is) must be included. A curve fit line without the information underlining the curve fit does not have any scientific meaning.

The breakdown of a report into sections helps organize the information into logical sections. There is no “standard” convention dictating the number of sections in a report. The sections used in this report follow a more common breakdown of a technical writing reporting results of an engineering experiment. Appropriate adjustment should be made for other type of reports. Regardless of the number of sections, the logical flow of the information in the report will be similar.

CONCLUSIONS AND RECOMMENDATIONS

Report writing takes more planning than simply sitting down in front of the computer and

start typing. Information in the report must be divided into appropriate sections. This “pseudo report” serves only as a guideline to writing a technical report. The format and the number of sections are not rigidly set. Adjustment to the report should be made depending on the nature of the report. It is up to the writer to analyze and adapt the format to suit the situation.

REFERENCES

1 Ferry, J.D., Name of the Book, Publisher, New York, 1980, pp 131-140.

2 Mandell, J.F., Some Really Really Long Essay that is Part of a Volume, Title of the

Volume, Smithee, A (ed.), Publisher, New York, 1999, p 140.

3 Barnes, N.M, Noble, B.J, and Jones, S, Name of the Article, Journal of Something Made

of Wood. 1980, Volume #, Section #, pp 131-140.

4 Someone, R, Name of the Article or Web Page,

www.thisbetterbearealwebpage.com/thispage/thisdoc.html, 1966.

5 Kao, B.V., Professor of Everything, Planet Earth, personal communication, 2002.

APPENDICES

APPENDIX A SAMPLE CALCULATIONS

Mathematically 1+1=2,

However, similar addition in base 2 produces:

1+1=10

APPENDIX B ALTERNATIVE METHOD FOR CONDUCTION TESTS

The method used to obtain the results in this report is one of many methods available. It

is the one chosen because of the availability of the equipment. Other methods may be used equally as well. Some of these methods are:

Method 1

Something.

Method 2

Something else.

NUST Electronics - 2015 Attachment Presentations - Unedited

NUST Electronics Attachment 2015 - Magaba

IEEE ICIT2015 - BDCE Based Delta Modulation

Technological Advances in All Directions - Paper can Transfer a Vote to Another Candidate????

15 Comedy Movies from the late 20 Century

1. Big Bully - 1996
Starring  Rick Moranis

2. The Birdcage - 1996
Starring  Robin Williams

3. Broadway Danny Rose -1984
Starring Woody Allen

4. Cold Comfort Farm - 1995
Starring Kate Beckinsale

5. Delicatessen - 1995
Starring Marie-Laure Dougnac


6. Down Periscope - 1996
Starring Kelsey Grammer



7. The Favor - 1994
Starring Harley Jane Kozak

8. Guarding Tess - 1994
Starring Shirley MacLaine

9. Heavenly Pursuits - 1986
Starring Tom Conti

10. A Holiday to Remember - 1996
Starring Connie Sellecca

11. Honey Sweet Love - 1992
Starring Ben Cross

12. In the Bleak Midwinter. 1995
Starring Michael Maloney

13. Junior - 1994
Starring Arnold Schwarzenegger

 14. Leon the Pig Farmer - 1993
Starring Mark Frankel

15. Lucky Break - 1994
Starring Gia

Unplanned but Exciting Beach Visit - Hout Bay Cape Town.

The day started quiet as usual until one of our relatives invited us to her house in Hout Bay. The house is spacious and well ventilated. It resembles a typical beach house.

Lunch was served with the customary dish in Cape Town, that is, Fish and Wine with anything else. We had potato chips added to that.

After the meal, we were full of energy but no adventure. We had not brought any clothes fit for the beach and hence for some time, the beach was out of question. One of our team suggested we just walk around the beach. This was a good idea and this led to the excitement of the day.

As we approached the beach, everyone hesitated for a moment because of the sea breeze. No one ever thought they would set their feet into the sea. 

By the way This is the Location of the Hout Bay. it is on the Atlantic Ocean side, which is the western coast in Cape Town.

The looks in these eyes show an edge to get into the water, but the clothing and the weather seemed to discourage that.

Then one adventurous member of the team broke out of the pack. You always need people like these whenever you travel because they give you the edge to be adventurous.

The way had been opened and so the others easily followed up. At first every effort was made to avoid the waters.

Then an unexpected high tide swept through the sea, catching us unawares and we no longer had any reason to avoid the waters, our feet were already wet. The chilling water sent the cold up the spine in no time.

As if it also sent some energy into the spine, everyone became excited and started jumping around. 

More people drew near and the water was filled with life.

For the dread locked ladies, the breeze swept their hair in a typical stage performance of the rasta -farians. 

For the love birds, the pictures show the mood. This was all created by the feel of nature near the sea.

If you live in a coastal area and seek happiness, just visit the beach. If you are land locked, find a dam nearby, it may give you the feeling.

Seven Important Components of a Technical Report

Sometimes, we do a lot of work and get very low marks because of the way we present our work. Below are the seven main components of a Technical report.

1. Title Page 

This component includes the title of the investigation or the work being presented, The name(s) of the investigator (s), the name (s) of the supervisor (s), the institution at or for which the work is being done and the year of completion.

2. Abstract

This is the first component showing the work done, in short, but is written last. It is written last because it should include the introduction, the work done, the results and the conclusions in a concise manner. A report may be taken as good or bad due to the quality of the abstract. Great attention needs to be paid to this component since it tells the reader what to expect in the report.

3. Introduction

The introduction takes the underlying theory, the present technological state and shows why the investigation or study is being done. This will validate the importance of the research and should be given due attention.

4. Literature Review

At first I thought this was where I would put in all the literature about the subject, but experience has taught me that there is a set criteria for the literature to be included. The literature review should be written in funnel style where you move from broad to specific. The literature included should not only be related to the work being presented but also be used to justify why the current investigation is being done. This is done by considering the shortfalls of the previous work and hence justify the relevance of the current work.

5. Methodology

This is a presentation of the sequence of doing the study. In some cases time frames are required in the proposal. In the report, the section gives the reader a view of the work and how it was done. This may span many chapters and presented preferably in chronological order.

6. Results

After presenting how the work was done, the results should be convincingly reported. This section also includes a discussion of results especially where some anomalies are observed. This will help the reader to understand why the results are the way they are.

7. Conclusion

Every study is done for a purpose and this is the section where the study is evaluated according to the set objectives. The conclusions should be in harmony with the results.

Why Zimbabwe is still the preferred tourist destination in Africa

One would wonder why tourists come from all over the world to visit Zimbabwe. What is it that makes them ignore all the negative publicity that the country has and still run to the country. Even when there was hyperinflation, the country's tourism industry still stood firm. The answer is multifaceted as we are going to find out.

A look at the flag shows a lot. There is always fresh air in Zimbabwe because the vegetation is guarded jealously by the environmental conservation authorities. Did you know that you could be arrested for carrying loads of firewood without a license or written permission from the authorities.

The second thing is that the mighty Victoria Falls, though shared between Zimbabwe and Zambia, only has a scenic view when viewed from the Zimbabwean side. So tourists have no choice but to go to Zimbabwe to view the Victoria Falls. This has been arranged by the powers that be and hence there is no choice but to get into Zimbabwe to view the Victoria Falls.

This is how you view the Victoria Falls from the Zambian side. From this side you lose out on the water activities in the gorge. So to view the water activity, its either you go to the Zimbabwean side, or you lose out.

This is the view from the Zimbabwean side. There is no need to explain the difference, its all clear.

The third reason why Zimbabwe still has visitors is because of the Great Zimbabwe (Dzimbadzamabwe), from which the country derives its name. Apparently this is one of the surviving ancient settlements. The construction is difficult to explaining considering the size of stones used and the technology that was there at the time.

It is interesting to note that historians and archaeologists are still scavenging the area to try and explain how this structure came into being. everyone would be keen to see this monument considering how people in general consider early African civilization.

The animal Kingdom in the country is a blend of big and small animals. The pictures that follow will show the species that attract people from all over the world to visit Zimbabwe.

The Big bird called "Dendera" in the local Shona language.

 This Giant Tortoise is a rare species

The Pangolin is a rare protected species. In ancient history, if one caught it, they were obliged to bring it to the Chief or face punishment.

We will not mention the leopards, lions, elephants, rhino, zebras, buffaloes and other common animals.

Come to Zimbabwe and see for yourself. You will never regret visiting Zimbabwe.

Above all, Zimbabwe is the only country in Africa where foreigners are treated with special respect. if one ill-treats a foreigner, they are punished heavily, this stems from the prominent culture where strangers are deemed worth more respect than locals.

Visit Zimbabwe.