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Probability in real life can be said as something that usually happens. No one can predict the future, however; one can determine how likely it is that something will or will not happen.
Scientists are most likely to use the metric system. The only measurement out of pounds, meters, miles and square feet that is metric is meters.
You get a non-random sample and any analysis based on the assumption of randomly distributed variables is no longer valid. In particular, your estimates of any variables are likely to be biased and your error estimates (standard errors or sample variances) will be incorrect. Any inferences based on statistical tests will be less reliable and may be wrong.
If you're asking about prime factorizations, the process is the same, no matter the size of the number. Use a factor tree. Larger numbers are likely to have more branches.
The coin needs to be seen and weighed, take it to a coin dealer. Likely the coin has been altered by some process out side the Mint and is only face value.
Scientists predict floods by monitoring weather patterns, river levels, and land conditions. This data is input into computer models that simulate how water will flow and accumulate in a given area. By analyzing this information, scientists can forecast when and where floods are likely to occur, allowing for appropriate preparedness and response measures to be put in place.
Scientists and meteorologists can predict the conditions that are favorable for tornado formation, but predicting the exact time and location of a tornado is still a challenge due to the complexity of the atmosphere. Advanced warning systems and technology have improved, allowing for earlier detection and alerts to be issued, but tornado forecasting is not a perfect science.
Scientists usually use extensometer. But it is difficult to measure the whole landslide area.
For long-term outlooks, scientists use computer models to predict the behavior of weather systems. This can predict the general risk for tornadoes across a region, but not wehat specific areas will likely be hit. On the short term, the rotation in a storm that may produce a tornado is detected using Doppler radar. The radar may also detect the tornado itself.
A) Environment
making inferences means choosing the most likely explanation from the facts at hand.
Scientists can predict where earthquakes are likely to occur based on the movement of tectonic plates. They can also estimate the magnitude of potential earthquakes by studying historical seismic activity in a region. However, predicting the exact time, location, and intensity of an earthquake is still a major challenge in the field of seismology.
The laws of probability predict what is likely to occur, not necessarily what will occur.
Rutherford gave this model. It is also called planetary model.
Scientists can predict where earthquakes are more likely to occur based on historical data and tectonic plate movements, but the exact timing of an earthquake is difficult to predict accurately. Monitoring of seismic activity can provide some warning signs, but forecasting the precise time of an earthquake remains a challenging task.
The likely word is predict (forecast, foretell).
A meteorologist.