If you are using statistical analysis (and you are using it honestly) then it is understood that there is a small but finite possibility (usually 5%) that you obtained your significant results by chance alone. So replication of studies helps to support findings. There are methods of meta-analysis where results of many studies are examined together so that the pooled probabilities can be calculated with some degree of accuracy, even though there may be some complications of interpretation because different studies will have widely different hypotheses.
to make sure that its a reliable source of information...E.G if i were to conduct an experiment on the average height of a ball being thrown up in the air by an averaged sized adult, i would have to conduct the experiment to make sure that1. i can calculate the the averageand 2. so that i can make sure that the first test wasn't a fluke and that all other tests are relevant
.:B:.
Experiments are repeated more than once because we need to make sure the results can be replicated. If you do an experiment and get a specific result but do the experiment again and get a different result that usually means there was a flaw in your original experiment, if you do the experiment a third time, though and get the same result as the first time the flaw may have been in your replication. Either way, scientists repeat experiments to show that their results can be replicated. Essentially this shows that we understand the processes well enough to be able to "control" them. Hope this helps! :)
To ensure that the results are not accidental but is accurate.
it is important that scientist perform an experiment more than once because they might of left out some information.
It's important to conduct an experiment more than once to make
sure your results are correct and not a fluke or wrongly measured.
Just to make sure that the experiment is accurate.
hi
pooopooo
A Cheater
a repeat.
Scientists do their test more than once, or get their colleagues and peers to do the same experiment in order to verify the results of their experiment. This is called reproducing an experiment and its results.
So people can make sure there data is correct on the experiment. For example, if someone did an experiment once and it worked, and then did it 4 more times, and it didn't work, that would be the most accurate answer that it didn't work. If they didn't do it that extra 4 times, they would have thought it worked, when it did not. -Allie(: *Did this question help you? Please, comment if it did*
To make sure that the test results are the same and can conclude the result of the experiment will come up 100% of the time.
A Cheater
First decide on electrical or mechanical waves. The experiment may become clear once you know that. A rope or an electronic signal generator?
a repeat.
Scientists do their test more than once, or get their colleagues and peers to do the same experiment in order to verify the results of their experiment. This is called reproducing an experiment and its results.
I.What types of plants were used in the experiment?II.What was the experiment's control? III.Was the experiment repeated more than once?
replicate
To make an experiment more accurate you would have to repeat the experiment 3-5 more times to make it reliable and also you would do what Liverpool college do and compare the answers with other people in the class, community or teacher.
It tells you how accurate your results are. If you do the experiment multiple times and get different results, then there is something wrong with the experiment or what you are measuring. Its just like a survey, the more people you ask, the closer to the actual population opinion you get.
yes it does
Define your research question and hypothesis. Design the experiment to test the hypothesis, including controls and variables. Conduct the experiment carefully, following the experimental procedure. Analyze the data collected and draw conclusions based on the results.
experiment
An experiment is a method of testing whether something is right. A conclusion is the answer which is reached once the experiment is finished.