Students who dedicate their lives to science often rely on problem-solving principles and exact calculations. There are many tasks in university to check knowledge on a specific field and enhance professional skills. One of these tasks is a lab report project that students need to write based on deep research.
Some questions are difficult to understand, so students ask specialists, “Can you do my science homework?” and cooperate to get reliable advice. Also, learners feel uncertain about proper methodology selection to make their project noteworthy. Still, you can save our article to have always on hand our eight recommendations on choosing a research method and not losing the scientific game.
1. Answer the question.
Every scientific study has its own subtopics. Make sure you know everything well before defining a perfect methodology for your project. For this purpose, choose correct sources to read, watch, and analyze. When you are ready to organize collected information and outline the details, you can find many answers. Stay open to insights and note down every change concerning your science homework.
Observation is a part of every experiment, and it should be your starting point. You can rely on predictions, but without theoretical explanations, they wouldn’t have enough value to be considered as scholarly research.
2. Research topic area.
You need to be ready that the result of your experiment could be unsatisfactory. In other words, the experimental outcome will not meet your expectations. Consequently, you need to get acquainted with other predictions. Although other authors can accept some facts or prove theories, your work can be totally new in the scientific world.
Try not to choose the method that fits your expectable result, but the effective one based on other works. Actually, you need to prove whether results change if processed under controlled conditions or values will stay the same. That’s why it is good to compare with already existing works.
3. Provide hypotheses.
If you write a lab report on biology and want to conduct an experiment on whether fertilization of roses and peaches will take place, you should learn the fundamentals. They will help you get information and predict observations where the investigation could have a positive or negative outcome. In a positive outcome, there will be new fruit species, and in a negative result, both plants will be spoiled.
Remember that there are many examples, and our one is just the showcase of choosing the methodology for your research. You can explore the plants’ development with different cultivations: vegetative propagation or closely related crossbreeding.
4. Test with experiment.
Yes, you can always experiment with writing your scientific work. The great scientist never stops investigating. Therefore, write down a list of questions and make a trial differently. For instance, when you find a person who will assist you during the experiment, it will be called participant observation — notice for yourself similarities and differences between approaches. Track where results were more effective and in which way they were lacking.
5. Analyze data.
Information is everything in various scientific disciplines. Each fact and smallest element could play a significant role. Make sure you’ve collected enough data to see which method is great for your experiment. For instance, if you choose a survey methodology for research, you might face similar results as other authors have already attained.
Always rely on some frameworks and statistics related to your discipline. Think not only about large numbers but more about local behavior and phenomena. Build a structure with an introduction, body paragraphs, and conclusion to speak precisely about your work. Arrange elements the way you think your findings will look logical and concise.
6. Report conclusion.
Experts in scientific writings often recommend writing the methodology section first. Still, if you don’t have an idea of how to reach your goal, we advise you to set this aim first. This summary is the end of your project, but this is the most crucial part of whether your experiment will fail or succeed. Writing a conclusion will help you see big pictures and avoid mistakes in the early scientific research stages. Moreover, you can track your methodology progress and correlate it due to the concluding sentence.
7. Meet different approaches.
Look at these five common methods and select the most suitable:
- Standard experimental
This method includes testing, measurements, and comparison. Relying on various factors, you add more interactive elements such as graphs, tables, and a list of questions and answers in your scientific project. Usually, students who use this method conduct experiments in special laboratory conditions with professional equipment.
Asking people or certain groups about your subject, you can get relevant information and include it in your work. See whether the answers are enough to make a reliable decision and write a conclusion with robust support.
This is the type of survey where information is collected from a large number of people. Special data processing software organizes these statistics accurately and doesn’t confuse the author with measurements. Results are based on several versions which participants should choose from.
Tete-a-tete conversation is a great part of any academic work. With the help of this methodology, you can extract significant details on necessary subjects and correlate facts due to your project’s aims.
- Case study
Using this approach, you provide an in-depth explanation about a particular event, case, or situation. This type often corresponds to students who learn humanities like psychology, sociology, and history.
8. Deliver a valid message.
Scholar researchers believe in facts only, so don’t be vague in your findings. If your experiment hasn’t turned out, it doesn’t mean you should cancel your project. Science always has room for bias, and your work can provide a huge help for further researchers. Every material is meaningful, but the key to doing it right is to analyze all findings correctly.
No matter which methodology you select for your research, don’t give up if the findings don’t meet your forecast. Continue to note down this experiment and do it better next time!