Why a scientific investigation is important

A scientific investigation should provide an opportunity for students to work the scientific method – the general guide to the development of scientific thinking which is used from elementary school experiments to published scientific papers.  This continuity provides students with the opportunity for students to recognise that every associated write-up provides the opportunity to put to use what they have learnt before and experiment with improvements to help their own development.

 

The right investigation

I genuinely believe in that last statement but feel that too often students are set tasks are not open ended enough for students to be empowered by individual ownership due to repetition within the class or, worse, around the world with those experimental standards (for example the classic resistance of the wire experiment).  One reason for this is that teachers are afraid to set tasks that they do not completely understand so to protect their position as the revered holder of all knowledge, rather than acknowledging their shared role as a life long learner.

My favourite recent scientific investigation for a year 11 class involved the research into factors that affects the function of a simple voltaic cell.  The features which make this a suitable task are:

1) The potential experiments are relatively easy to set up and tale measurements from

2) With several different types and many electrolyte options it becomes easy for every student in the class to have their own individual investigations

3) I could not predict all the results found so felt that I became an involved learner with my students.

4) Even when some of my more able students dug up the Nernst Equation it became obvious that the ranges of concentration were not specified so often led to some delightfully (more for me than the students) contradictory results.

4) Some investigations can lead to null results, where values do not change.  This provides a great reminder to students that sometimes things are not dependent (which is seemingly trained out of students by teachers with the insecurities earlier mentioned)

5) Null results also provide an excellent gateway into conversations about the precision and reliability of results so supporting the requirement leap into higher level science (in my case those set by the IB diploma)

The right student support

Students need to recognise that every scientific investigation write-up should build upon the last.  Especially, when there is access to a digital version in the class due to a one-to-one program, the previous investigation, including the teacher’s comments, makes a great starting point as it best highlights the students’ strengths and weaknesses.

For this to work a school should insure that the expectations for a scientific investigation are consistent across all teachers throughout a year group.  I know every teacher has their own quirks when it comes to a write-up so bringing a year group team together to discuss this is vital.  Furthermore these pieces should fit together as a natural progression from year to year, which requires a department to consider all of these collectively.  For example my own year 7 template introduces and scaffolds al l the required sections, whilst the year 11 support material is no longer a template and is more detailed but does represent the same core sections with language continuity.

Helping each student develop their own glossary of useful terms for each section of a scientific investigation write-up is also a useful tool.  For instance sentences which correctly describe different graphical trends could be built up in a data analysis section.

The right teacher engagement

Academic honesty issues can be avoided if the teacher is constantly aware of what the student has produced at each stage – which is briefly explained below.

1) Aim, hypothesis and variables

Students should be provided the equipment to familiarise themselves with the investigation and related the equipment to help spark a question from which to develop a one sentence aim.   A one paragraph hypothesis should explain what they expect to happen and why.  A table showing the type of variable (independent, dependent and fixed) and how they are changed measured or controlled.

2) Procedure and results table (this should be a hurdle for starting the investigation for students)

The procedure, which describes the scientific process, with clear instructional and numbered steps.  A results table that, would normally, include the independent variable in the first column and the dependent variable in the following columns depending on the number of repetitions mentioned in the method.

3) Results and refined method

The results should be gathered and the method refined to reflect what the student actually does.

4) Data analysis (often including a graph)

An analysis of the results – often a graph and an explanation of what trends have been identified.

5) Conclusion

A consideration of the quality of the data collected relating to the reliability and validity.  Before presenting a scientific explanation of the findings. The validity, of course, should be related to if an existing scientific explanation can be used to support the identified trends.

6) Evaluation

The identification of issues which arose during the investigation and the related improvements.

This is all made even easier when each stage is reviewed by the teacher using a tool such as turnitin.com for each stage to be turned in and this should highlight the similarities between earlier stages and the final piece of work.

The right student requirements

By producing an explicit timeline for the stages described above it helps students manage their time more effectively and models the teacher expectations – so trying to eliminate the ill-conceived student developed plan of completing a scientific investigation write-up in one, often late night and last minute, attempt.

At best a hypothesis should reflect the students understanding at a point in time which guide their predictions.  It does not have to be based on the latest related academic studies but a student’s articulation of prior knowledge and therefore for a teacher provides a tremendous insight.  By making this clear it alleviates a convoluted hypothesis which has been designed to best fit the conclusions scientific explanation.

It is expected that a conclusion should contain a scientific explanation and that should be based on what others have identified.  For this reason it is vital that students understand that they need to identify their sources using a school wide consistent method e.g. MLA format referencing.

 

The rules to protect scientific investigations from academic honesty issues:

Rule 1: The teacher must design a suitably open-ended investigation with enough variety for all students to have individual ownership. 

Rule 2: Every investigation should emphasize the embedded building blocks for which the student to improve their own skills, and grades.

Rule 3: Teacher must be aware of all stages of the investigation to make it easier to identify work which is not that of a student but also to provide support at the relevant time.

Rule 4: We are all standing on the shoulders of giants and identifying where the key scientific concepts located in the conclusion come is best done by including a bibliography (and if possible in-text referencing).