That depends on the result of the experiment. The experiment is a way to test a hypothesis, and it's completely fine if the experiment disproves the hypothesis. Ideally, though, the experiment will support the hypothesis.
Hypothesis is examined very closely to see what it predicts, and the predictions are then rigorously tested. If the predictions are not supported by the results of experiments, the hypothesis is rejected but if they are confirmed, the hypothesis is supported.
whether the data supports the hypothesis
After forming a hypothesis, the next steps in the scientific method are to design and conduct an experiment to test the hypothesis, collect and analyze data from the experiment, and finally draw conclusions based on the results. If the results support the hypothesis, it may be considered valid; if not, the hypothesis may need to be revised or rejected. Additionally, the findings should be communicated to others for further validation and exploration.
This statement is not necessarily true. Disproving a hypothesis can be a valuable outcome, indicating that the hypothesis may be incorrect or that the underlying assumptions need reevaluation. A well-designed experiment should be able to test a hypothesis rigorously, regardless of the outcome. Validity is determined by the experimental design, controls, and methodology, not merely by whether the hypothesis is supported or disproven.
Any experiment should start with a 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.
Hypothesis is examined very closely to see what it predicts, and the predictions are then rigorously tested. If the predictions are not supported by the results of experiments, the hypothesis is rejected but if they are confirmed, the hypothesis is supported.
When we've proven that the hypothesis is false !
whether the data supports the hypothesis
You should ask yourself if the data supported your hypothesis.
You should ask yourself if the data supported your hypothesis.
After forming a hypothesis, the next steps in the scientific method are to design and conduct an experiment to test the hypothesis, collect and analyze data from the experiment, and finally draw conclusions based on the results. If the results support the hypothesis, it may be considered valid; if not, the hypothesis may need to be revised or rejected. Additionally, the findings should be communicated to others for further validation and exploration.
you should go to the next ster
This statement is not necessarily true. Disproving a hypothesis can be a valuable outcome, indicating that the hypothesis may be incorrect or that the underlying assumptions need reevaluation. A well-designed experiment should be able to test a hypothesis rigorously, regardless of the outcome. Validity is determined by the experimental design, controls, and methodology, not merely by whether the hypothesis is supported or disproven.
Any experiment should start with a hypothesis.
Thinking of alternative explanation for their results
To make a hypothesis in a scientific experiment, first, identify the problem or question you want to investigate. Then, research existing information and observations related to the topic. Next, propose a possible explanation or prediction based on this information. Finally, ensure that your hypothesis is testable and can be supported or refuted through experimentation.