The results of a science experiment do not have to match the original hypothesis. Indeed, the results collected in an experiment may be completely different to those that the scientist predicted.
A hypothesis is your first guess at how something/ your experiment is going to turn out. If the results you get match your hypothesis you can declare that it provides evidence to suggest that your hypothesis is true.
No. An hypothesis is an idea put forward to explain an observation. Often you do the experiment to test the hypothesis. The results of the experiment may help you decide whether to discard your hypothesis or to test it further.
If your results do not match your hypothesis, it's important to analyze and review your data carefully to identify any potential errors or factors that may have influenced the outcome. Consider whether your hypothesis needs to be revised based on the new evidence, and think about alternative explanations for the results. Additionally, repeating the experiment or conducting further tests can help clarify the findings and provide more insight. Ultimately, unexpected results can lead to valuable discoveries and a deeper understanding of the subject.
a hypothesis is given to explain a phenomena which has not been explained till then. it can be supported by an experiment if that experiment gets the other results regarding that particular phenomena in agreement with that being predicted by the hypothesis and if any contradictory fact arises or the result doesnt match the prediction then the hypothesis is again thought upon or totally discarded at times
end the experiment and throw away the datarepeat the experiment until the hypothesis is supportedchange the hypothesisargue that the results were
A hypothesis is your first guess at how something/ your experiment is going to turn out. If the results you get match your hypothesis you can declare that it provides evidence to suggest that your hypothesis is true.
No. An hypothesis is an idea put forward to explain an observation. Often you do the experiment to test the hypothesis. The results of the experiment may help you decide whether to discard your hypothesis or to test it further.
Type your answer here... Hypothesis is your guess/prediction to the results of an experiment and also in relation to the aim of the experiment.
If your results do not match your hypothesis, it's important to analyze and review your data carefully to identify any potential errors or factors that may have influenced the outcome. Consider whether your hypothesis needs to be revised based on the new evidence, and think about alternative explanations for the results. Additionally, repeating the experiment or conducting further tests can help clarify the findings and provide more insight. Ultimately, unexpected results can lead to valuable discoveries and a deeper understanding of the subject.
Type your answer here... Hypothesis is your guess/prediction to the results of an experiment and also in relation to the aim of the experiment.
a hypothesis is given to explain a phenomena which has not been explained till then. it can be supported by an experiment if that experiment gets the other results regarding that particular phenomena in agreement with that being predicted by the hypothesis and if any contradictory fact arises or the result doesnt match the prediction then the hypothesis is again thought upon or totally discarded at times
end the experiment and throw away the datarepeat the experiment until the hypothesis is supportedchange the hypothesisargue that the results were
No
false
The scientist or student scientist should review the results. Conclusions should be drawn based on the results. Then, the hypothesis is reviewed to make sure the results confirm the hypothesis; if not, revise the hypothesis and rerun the experiment.
The purposes of testing a hypothesis is to test it. Pass or fail, the experiment is a "success" if it does that - tests the hyposthesis. If the results don't support the hypothesis, then that is valuable data that helps you either abandon or refine the hypothesis.
To determine whether Fleming's hypothesis should be supported or rejected based on an experiment, one would need to analyze the results of the experiment in relation to the hypothesis. If the data from the experiment aligns with the predictions made by Fleming's hypothesis, then it should be supported. However, if the results contradict the hypothesis, it may need to be rejected or revised.