Sunday, July 27, 2008

chin mao ni atong english

Classifications of Descriptive Research

1. Cross-Sectional Survey è involves collecting data from selected individuals in a single time period however long it takes to collect data from participants

2. Longitudinal Survey è involves collecting data at two or more instances in order to measure changes over time

3. self-report survey è requires individuals to respond to a series of statements or questions about themselves

4. Observation Study è the researcher obtains data by watching participants in a situation

Writing Research Papers


Title Page
Select an informative title as illustrated in the examples in your writing portfolio example package. Include the name(s) and address(es) of all authors, and date submitted. "Biology lab #1" would not be an informative title, for example.

Abstract
The summary should be two hundred words or less. See the examples in the writing portfolio package.

---General intent
An abstract is a concise single paragraph summary of completed work or work in progress. In a minute or less a reader can learn the rationale behind the study, general approach to the problem, pertinent results, and important conclusions or new questions.
---Writing an abstract
Write your summary after the rest of the paper is completed. After all, how can you summarize something that is not yet written? Economy of words is important throughout any paper, but especially in an abstract. However, use complete sentences and do not sacrifice readability for brevity. You can keep it concise by wording sentences so that they serve more than one purpose. For example, "In order to learn the role of protein synthesis in early development of the sea urchin, newly fertilized embryos were pulse-labeled with tritiated leucine, to provide a time course of changes in synthetic rate, as measured by total counts per minute (cpm)." This sentence provides the overall question, methods, and type of analysis, all in one sentence. The writer can now go directly to summarizing the results.

Summarize the study, including the following elements in any abstract. Try to keep the first two items to no more than one sentence each.

  • Purpose of the study - hypothesis, overall question, objective
  • Model organism or system and brief description of the experiment
  • Results, including specific data - if the results are quantitative in nature, report quantitative data; results of any statistical analysis shoud be reported
  • Important conclusions or questions that follow from the experiment(s)

===Style:
Single paragraph, and concise
As a summary of work done, it is always written in past tense
An abstract should stand on its own, and not refer to any other part of the paper such as a figure or table
Focus on summarizing results - limit background information to a sentence or two, if absolutely necessary
What you report in an abstract must be consistent with what you reported in the paper
Corrrect spelling, clarity of sentences and phrases, and proper reporting of quantities (proper units, significant figures) are just as important in an abstract as they are anywhere else

Introduction
Your introductions should not exceed two pages (double spaced, typed). See the examples in the writing portfolio package.

---General intent
The purpose of an introduction is to aquaint the reader with the rationale behind the work, with the intention of defending it. It places your work in a theoretical context, and enables the reader to understand and appreciate your objectives.
----Writing an introduction
The abstract is the only text in a research paper to be written without using paragraphs in order to separate major points. Approaches vary widely, however for our studies the following approach can produce an effective introduction.
Describe the importance (significance) of the study - why was this worth doing in the first place? Provide a broad context.
Defend the model - why did you use this particular organism or system? What are its advantages? You might comment on its suitability from a theoretical point of view as well as indicate practical reasons for using it.
Provide a rationale. State your specific hypothesis(es) or objective(s), and describe the reasoning that led you to select them.
Very briefy describe the experimental design and how it accomplished the stated objectives.

===Style:
Use past tense except when referring to established facts. After all, the paper will be submitted after all of the work is completed.
Organize your ideas, making one major point with each paragraph. If you make the four points listed above, you will need a minimum of four paragraphs.
Present background information only as needed in order support a position. The reader does not want to read everything you know about a subject.
State the hypothesis/objective precisely - do not oversimplify.
As always, pay attention to spelling, clarity and appropriateness of sentences and phrases.

Materials and Methods
There is no specific page limit, but a key concept is to keep this section as concise as you possibly can. People will want to read this material selectively. The reader may only be interested in one formula or part of a procedure. Materials and methods may be reported under separate subheadings within this section or can be incorporated together.

---General intent
This should be the easiest section to write, but many students misunderstand the purpose. The objective is to document all specialized materials and general procedures, so that another individual may use some or all of the methods in another study or judge the scientific merit of your work. It is not to be a step by step description of everything you did, nor is a methods section a set of instructions. In particular, it is not supposed to tell a story. By the way, your notebook should contain all of the information that you need for this section.
---Writing a materials and methods section
=Materials:
Describe materials separately only if the study is so complicated that it saves space this way.
Include specialized chemicals, biological materials, and any equipment or supplies that are not commonly found in laboratories.
Do not include commonly found supplies such as test tubes, pipet tips, beakers, etc., or standard lab equipment such as centrifuges, spectrophotometers, pipettors, etc.
If use of a specific type of equipment, a specific enzyme, or a culture from a particular supplier is critical to the success of the experiment, then it and the source should be singled out, otherwise no.
Materials may be reported in a separate paragraph or else they may be identified along with your procedures.
In biosciences we frequently work with solutions - refer to them by name and describe completely, including concentrations of all reagents, and pH of aqueous solutions, solvent if non-aqueous.


=Methods:
See the examples in the writing portfolio package
Report the methodology (not details of each procedure that employed the same methodology)
Describe the mehodology completely, including such specifics as temperatures, incubation times, etc.
To be concise, present methods under headings devoted to specific procedures or groups of procedures
Generalize - report how procedures were done, not how they were specifically performed on a particular day. For example, report "samples were diluted to a final concentration of 2 mg/ml protein;" don't report that "135 microliters of sample one was diluted with 330 microliters of buffer to make the protein concentration 2 mg/ml." Always think about what would be relevant to an investigator at another institution, working on his/her own project.
If well documented procedures were used, report the procedure by name, perhaps with reference, and that's all. For example, the Bradford assay is well known. You need not report the procedure in full - just that you used a Bradford assay to estimate protein concentration, and identify what you used as a standard. The same is true for the SDS-PAGE method, and many other well known procedures in biology and biochemistry.

=Style:
It is awkward or impossible to use active voice when documenting methods without using first person, which would focus the reader's attention on the investigator rather than the work. Therefore when writing up the methods most authors use third person passive voice.
Use normal prose in this and in every other section of the paper – avoid informal lists, and use complete sentences.

=What to avoid
Materials and methods are not a set of instructions.
Omit all explanatory information and background - save it for the discussion.
Omit information that is irrelevant to a third party, such as what color ice bucket you used, or which individual logged in the data.

Results
The page length of this section is set by the amount and types of data to be reported. Continue to be concise, using figures and tables, if appropriate, to present results most effectively. See recommendations for content, below.

---General intent
The purpose of a results section is to present and illustrate your findings. Make this section a completely objective report of the results, and save all interpretation for the discussion.

---Writing a results section
IMPORTANT: You must clearly distinguish material that would normally be included in a research article from any raw data or other appendix material that would not be published. In fact, such material should not be submitted at all unless requested by the instructor.

=Content
Summarize your findings in text and illustrate them, if appropriate, with figures and tables.
In text, describe each of your results, pointing the reader to observations that are most relevant.
Provide a context, such as by describing the question that was addressed by making a particular observation.
Describe results of control experiments and include observations that are not presented in a formal figure or table, if appropriate.
Analyze your data, then prepare the analyzed (converted) data in the form of a figure (graph), table, or in text form.

=What to avoid
Do not discuss or interpret your results, report background information, or attempt to explain anything.
Never include raw data or intermediate calculations in a research paper.
Do not present the same data more than once.
Text should complement any figures or tables, not repeat the same information.
Please do not confuse figures with tables - there is a difference.

=Style
As always, use past tense when you refer to your results, and put everything in a logical order.
In text, refer to each figure as "figure 1," "figure 2," etc. ; number your tables as well (see the reference text for details)
Place figures and tables, properly numbered, in order at the end of the report (clearly distinguish them from any other material such as raw data, standard curves, etc.)
If you prefer, you may place your figures and tables appropriately within the text of your results section.

=Figures and tables
Either place figures and tables within the text of the result, or include them in the back of the report (following Literature Cited) - do one or the other
If you place figures and tables at the end of the report, make sure they are clearly distinguished from any attached appendix materials, such as raw data
Regardless of placement, each figure must be numbered consecutively and complete with caption (caption goes under the figure)
Regardless of placement, each table must be titled, numbered consecutively and complete with heading (title with description goes above the table)
Each figure and table must be sufficiently complete that it could stand on its own, separate from text

Discussion
Journal guidelines vary. Space is so valuable in the Journal of Biological Chemistry, that authors are asked to restrict discussions to four pages or less, double spaced, typed. That works out to one printed page. While you are learning to write effectively, the limit will be extended to five typed pages. If you practice economy of words, that should be plenty of space within which to say all that you need to say.

---General intent
The objective here is to provide an interpretation of your results and support for all of your conclusions, using evidence from your experiment and generally accepted knowledge, if appropriate. The significance of findings should be clearly described.

---Writing a discussion
Interpret your data in the discussion in appropriate depth. This means that when you explain a phenomenon you must describe mechanisms that may account for the observation. If your results differ from your expectations, explain why that may have happened. If your results agree, then describe the theory that the evidence supported. It is never appropriate to simply state that the data agreed with expectations, and let it drop at that.
Decide if each hypothesis is supported, rejected, or if you cannot make a decision with confidence. Do not simply dismiss a study or part of a study as "inconclusive."
Research papers are not accepted if the work is incomplete. Draw what conclusions you can based upon the results that you have, and treat the study as a finished work
You may suggest future directions, such as how the experiment might be modified to accomplish another objective.
Explain all of your observations as much as possible, focusing on mechanisms.
Decide if the experimental design adequately addressed the hypothesis, and whether or not it was properly controlled.
Try to offer alternative explanations if reasonable alternatives exist.
One experiment will not answer an overall question, so keeping the big picture in mind, where do you go next? The best studies open up new avenues of research. What questions remain?
Recommendations for specific papers will provide additional suggestions.

---Style:
When you refer to information, distinguish data generated by your own studies from published information or from information obtained from other students (verb tense is an important tool for accomplishing that purpose).
Refer to work done by specific individuals (including yourself) in past tense.
Refer to generally accepted facts and principles in present tense. For example, "Doofus, in a 1989 survey, found that anemia in basset hounds was correlated with advanced age. Anemia is a condition in which there is insufficient hemoglobin in the blood."
The biggest mistake that students make in discussions is to present a superficial interpretation that more or less re-states the results. It is necessary to suggest why results came out as they did, focusing on the mechanisms behind the observations.

Literature Cited
Please note that in the introductory laboratory course, you will not be required to properly document sources of all of your information. One reason is that your major source of information is this website, and websites are inappropriate as primary sources. Second, it is problematic to provide a hundred students with equal access to potential reference materials. You may nevertheless find outside sources, and you should cite any articles that the instructor provides or that you find for yourself.

List all literature cited in your paper, in alphabetical order, by first author. In a proper research paper, only primary literature is used (original research articles authored by the original investigators). Be cautious about using web sites as references - anyone can put just about anything on a web site, and you have no sure way of knowing if it is truth or fiction. If you are citing an on line journal, use the journal citation (name, volume, year, page numbers). Some of your papers may not require references, and if that is the case simply state that "no references were consulted."

Monday, July 14, 2008

Research

Laraflyn B. Camay IV – Del Pilar

Dried Calamondin (Citrofortunella microcarpa) Leaves as Organic Mulch for Tomato Plants


Introduction

Calamondin or kalamansi in Tagalog is a common fruit tree in the family
Rutaceae and a member of citrofortunella that was developed in and is very popular throughout Southeast Asia, especially the Philippines, where it is most commonly used for cooking. In the west it is variously known as acid orange, calamondin orange, or Panama orange, and in the Pacific Islands it is called kalamansi. It is a shrub or small tree growing to 3-6 m, and bears small citrus fruit used to flavour foods and drinks. Although sometimes described as a native of the Philippines or other areas of Southeast Asia, the tree is in fact the result of a hybrid between species in the genera Citrofortunella and unknown in the wild. Hybrids between Citrus subspecies have been cultivated for so long that the origins of most are obscure. It is generally held that most species in cultivation are ancient apomictic hybrids and selected cultivars of these hybrids, including crosses with other genera such as Fortunella and Poncirus. The kalamansî is usually described as a cross between Citrus reticulata (Tangerine or Mandarin orange) and Fortunella margarita (Kumquat). Calamondin marmalade is made in the same way as orange marmalade—with a bit more sugar, providing a delicious spread for toast at breakfast. Like other citrus fruits, the calamansi is high in vitamin C, and the juice can be a good vitamin source.

The tomato (Lycopersicon lycopersicum, syn. Solanum lycopersicum) is an herbaceous, usually sprawling
plant in the Solanaceae or nightshade family, as are its close cousins tobacco, chili peppers, potato, and eggplant. The tomato is native to Central, South, and southern North America from Mexico to Argentina. Evidence supports the theory that the first domesticated tomato was a little yellow fruit, ancestor of L. cerasiforme, grown by the Aztecs in Mexico who called it ‘xitomatl’ (pronounced shi-to-ma-tlh), meaning plump thing with a navel.

Mulching in agricultural provides a safe yet equally profitable method of enriching and fertilizing the soil planted with crops. Most often-used mulches are of organic composition, such as dry leaves and barks. Unlike synthetic fertilizers and herbicides, these organic mulches pose no or little damage to the soil and crops.



Statement of the Problem

· Is using dried calamondin leaves effective as organic mulch for tomato plants?


Hypothesis

Null Hypothesis
· Dried calamondin leaves are not effective as an organic mulch for tomato plants

Alternative Hypothesis.
· Dried calamondin leaves are effective as organic mulch for tomato plants.


Methodology

Materials:

· Calamondin leaves
· Tomato plant
· Cloth

Procedures:

1. Arrange the calamondin leaves on the cloth and place it under the sun for 1 day.
2. If the leaves are already dry, pile it up for up to 2-3 inches.
3. place it over the soil where the tomato plant is planted.
4. Observe the effects on the tomato plant for 1-2 weeks.
5. make sure to get the tomato plant’s height and weed density of the plots from the first day of observation up to the end.

Sunday, July 13, 2008

Araling panlipunan

Mga Produktong Matatagpuan sa Rehiyon IV - B ng Pilpinas

Manganese is a chemical element that is designated by the symbol Mn and has an atomic number of 25. It is found as the free element in nature (often in combination with iron), and in many minerals. The free element is a metal with important industrial metal alloy uses. Manganese ions are variously colored, and are used industrially as pigments and as oxidation chemicals. Manganese (II) ions function as cofactors for a number of enzymes; the element is thus a required trace mineral for all known living organisms.

Nickel is a metallic chemical element with the symbol Ni and atomic number 28. Nickel is a silvery-white metal that takes on a high polish. It belongs to the transition metals, and is hard and ductile. It occurs most usually in combination with sulfur and iron in pentlandite, with sulfur in millerite, with arsenic in the mineral nickeline, and with arsenic and sulfur in nickel glance.
Gold is a chemical element with the symbol Au (from its Latin name aurum) and atomic number 79. It is a highly sought-after precious metal which, for many centuries, has been used as money, a store of value and in jewelry. The metal occurs as nuggets or grains in rocks, underground "veins" and in alluvial deposits. It is one of the coinage metals. Gold is dense, soft, shiny and the most malleable and ductile of the known metals. Pure gold has a bright yellow color traditionally considered attractive.
Silver is a chemical element with the symbol "Ag" (Latin: argentum, from the Ancient Greek: ἀργήντος - argēntos, gen. of ἀργήεις - argēeis, "white, shining" ) and atomic number 47. A soft, white, lustrous transition metal, it has the highest electrical conductivity of any element and the highest thermal conductivity of any metal. It occurs as a pure free metal (native silver) and alloyed with gold (electrum), as well as in various minerals, such as argentite and chlorargyrite. Most silver is produced as a by-product of copper, gold, lead, and zinc mining.

Copper is a chemical element with the symbol Cu (Latin: cuprum) and atomic number 29. It is a ductile metal with excellent electrical conductivity and is rather supple in its pure state and has a pinkish luster which is (beside gold) unusual for metals which are normally silvery white. It finds use as a heat conductor, an electrical conductor, as a building material, and as a constituent of various metal alloys.

Ang ginto ay isang elementong kimikal sa talaang peryodiko na may sagisag na Au (mula sa Latin na aurum) at may bilang atomikang 79. Tinatawag din ito oro na mula sa Kastila at gold sa Ingles. Hindi nakikipagsanib ang ginto sa maraming kimikal subalit inaatake ito ng cloro, floro, aqua regia at cianuro (cyanide). Natutunaw ang ginto sa asoge o mercurio. Ang ginto ay hindi natutunaw ng asido nitriko na nakatutunaw sa maraming metal. Dahil dito ang asido nitriko ay matagal nang ginagamit upang mapatunayan kung ginto nga ang isang metal.
Ang tanso (Ingles: copper) ay isang elementong kimikal. Ito ay may bilang atomiko ng 29 at may simbolo ng Cu (mula sa salitang cuprum ng Latin). Ito ay isang malambot na metal at isang magandang konduktor ng kuryente.
Karaniwang ginagamit ang tanso bilang konduktor ng kuryente, isang materyales sa paggawa ng mga gusali, at bilang isang bahagi ng maraming mga
haluang metal (alloy). Isa rin itong kinakailangang nutriente sa lahat ng mga mataas na halaman at hayop. Sa mga hayop, kasama ang tao, unang-unang matatagpuan ang tanso sa dugo. Sa sapat na dami, malason at nakakamatay ang tanso sa mga organismo.

Thursday, July 10, 2008

Insecticidal Property of Acacia Seeds and Bark Against Mosquitoes

Introduction


Acacia is a genus of shrubs and trees belonging to the subfamily Mimosoideae of the family Fabaceae, first described in Africa by the Swedish botanist Carolus Linnaeus in 1773. Acacias are also known as thorntrees or wattles, including the yellow-fever acacia and umbrella acacias. There are roughly 1300 species of Acacia worldwide, about 960 of them native to Australia, with the remainder spread around the tropical to warm-temperate regions of both hemispheres, including Africa, southern Asia, and the Americas.The leaves of acacias are compound pinnate in general. In some species, however, more especially in the Australian and Pacific islands species, the leaflets are suppressed, and the leaf-stalks (petioles) become vertically flattened, and serve the purpose of leaves. These are known as phyllodes. The vertical orientation of the phyllodes protects them from intense sunlight, as with their edges towards the sky and earth they do not intercept light so fully as horizontally placed leaves. A few species (such as Acacia glaucoptera) lack leaves or phyllodes altogether, but possess instead cladodes, modified leaf-like photosynthetic stems functioning as leaves.As mentioned previously, Acacias contain a number of organic compounds that defend them from pests and grazing animals.[2] Many of these compounds are psychoactive in humans. The alkaloids found in Acacias include dimethyltryptamine (DMT), 5-methoxy-dimethyltryptamine (5-MeO-DMT) and N-methyltryptamine (NMT). The plant leaves, stems and/or roots are sometimes made into a brew together with some MAOI-containing plant and consumed orally for healing, ceremonial or religious uses. Egyptian mythology has associated the acacia tree with characteristics of the tree of life (cf. article on the Legend of Osiris and Isis).


An insecticide is a pesticide used against insects in all developmental forms. They include ovicides and larvicides used against the eggs and larvae of insects respectively. Insecticides are used in agriculture, medicine, industry and the household. The use of insecticides is believed to be one of the major factors behind the increase in agricultural productivity in the 20th century. Nearly all insecticides have the potential to significantly alter ecosystems; many are toxic to humans; and others are concentrated in the food chain. It is necessary to balance agricultural needs with environmental and health issues when using insecticides.


The Acacia Tree contains alkaloids, which is known to be mosquito repellant. By using the seeds and bark of these acacia trees, we can use it as an insecticide.



Statement of the Problem



  • Is using acacia seeds and bark effective in using it as an insecticide?


  • Is using acacia seeds and bark not effective in using it as an insecticide?

Hypothesis


NULL




  • Acacia seeds and bark is effective as an insecticide against mosquitoes.

ALETERNATIVE




  • Acacia seeds and bark is not effective as an insecticide against mosquitoes.

Methodology


Materials: acacia seeds, acacia bark, transparent container (where mosquitoes will be placed), small bowl (must be small enough to fit inside the container), cloth


Procedures:




  1. Get the juice of the acacia seeds and bark.


  2. Place it on the small bowl and place it on the container.


  3. Place the mosquitoes inside the container and cover it with a cloth so that air could pass in it.


  4. Observe the effects of the juice of the acacia seeds and bark to the mosquitoes.