If you repeat your experiment and obtain similar results, it is referred to as achieving "replicability" or "reproducibility." This consistency reinforces the validity of your findings and suggests that the results are reliable and not due to random chance. Replicability is a fundamental principle in the scientific method, as it helps to confirm hypotheses and theories.
If you repeat your experiment and obtain similar results, your experiment is referred to as being "reliable" or demonstrating "reliability." This consistency in results suggests that your findings are reproducible and not due to random chance. Such experiments contribute to the credibility of the scientific conclusions drawn from them.
Getting the same results in an experiment is called "reproducibility." It refers to the ability of independent researchers to achieve consistent outcomes when they repeat the experiment under similar conditions. Reproducibility is a key principle in scientific research that helps validate findings and ensures reliability in the results obtained.
In science, a conclusion cannot be accepted as accurate unless other people can repeat the experiment and get the same or similar results.
Repeating the experiment will either confirm the results you've just obtained, or show up errors.
Repetition
If you repeat your experiment and obtain similar results, your experiment is referred to as being "reliable" or demonstrating "reliability." This consistency in results suggests that your findings are reproducible and not due to random chance. Such experiments contribute to the credibility of the scientific conclusions drawn from them.
Getting the same results in an experiment is called "reproducibility." It refers to the ability of independent researchers to achieve consistent outcomes when they repeat the experiment under similar conditions. Reproducibility is a key principle in scientific research that helps validate findings and ensures reliability in the results obtained.
Scientists repeat their experiments because to make sure that their results are correct.
Scientists repeat their experiments because to make sure that their results are correct.
In science, a conclusion cannot be accepted as accurate unless other people can repeat the experiment and get the same or similar results.
Repeating the experiment will either confirm the results you've just obtained, or show up errors.
Repetition
If you repeat the experiment and you get different results, then the accuracy of your first trial is not correct.
He repeated his experiment because he wanted to make sure that it worked perfectly before describing the results to others.
a repeat.
so others can repeat it and see if you did it right
When you repeat an experiment under different conditions, it is referred to as a "replication" or "repetition." This process helps to verify the reliability and validity of the original findings by assessing how changes in variables affect the results. It can also involve conducting variations of the original experiment, often termed as "variations" or "modifications," to explore different aspects of the hypothesis.