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That will depends entirely on how the two events are related. For instance, there may be a weak correlation, or a strong correlation, between two probabilities. You really need more information, about how the events are related. There is no single simple rule.
In genetical experiments the principle of probability is used to predict the results at !% and 5% probability levels. If a particular character appears in 95 plants out of 100, it is considered as a significant character to be inherited. For reaching more accuracy it may be tested at 1% level.
LightestEvening's answer : Probability. nothing else i can think of. But i think that is a more likely to be correct
The role of statistics is enormous in microbiology. I believe every school would require at least one or more courses in "biostatistics", which is the general application of statistical methodology, including planning experiments, drawing inferences, assessing correlations or dependencies with data. From wikipedia on biostatistics (see related link) The science of biostatistics encompasses the design of biological experiments, especially in medicine and agriculture; the collection, summarization, and analysis of data from those experiments; and the interpretation of, and inference from, the results. There is a related field, bioinformatics, which is studied as part of molecular biology, and genetics. This field uses more the probability theory in analyzing genetic code. One of the uses of bioinformatics is attempting to reconstruct the biological evolution in plants and animals. See related link on bioinformatics.
Each series of experiments is likely to give a slightly different answers. You will need to conduct the experiment and countthe number of times you got a 6 (= n6); andthe total number of times the experiment was conducted (= N).Then, the required probability is (N - n6)/N. As you increase N, the experimental probability will become more accurate.
CBSE has recommended a number of projects for class X for example efficiency in packing geometry in real life experiments on probability and many more
Probability can help gather information by identifying where the information is more likely to be found. In most situations, though, we gather information to help find probabilities!Probability can help gather information by identifying where the information is more likely to be found. In most situations, though, we gather information to help find probabilities!Probability can help gather information by identifying where the information is more likely to be found. In most situations, though, we gather information to help find probabilities!Probability can help gather information by identifying where the information is more likely to be found. In most situations, though, we gather information to help find probabilities!
It is not true that if a scientists fails to find a definite answer to experiments that they are a bad researcher. The problem could be very complicated.
experimental probability
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Erwin Schrödinger was a physicist and a father of quantum mechanics. Quantum mechanics deals a lot with probability. His famous Schrödinger equation, which deals with how the quantum state of a physical system changes in time, uses probability in how it deals with the local conservation of probability density. For more information, please see the Related Link below.
No, the probability of an outcome can't be more than 1.