The explanation that is consistent with all existing tests and observations often involves the framework of established scientific theories, such as the Standard Model in particle physics, which accurately describes fundamental particles and their interactions. Additionally, the theory of evolution by natural selection accounts for the diversity of life observed in Biology. In cosmology, the Big Bang theory effectively explains the expansion of the universe and cosmic background radiation. These frameworks are continually refined through experimentation and observation, aligning with empirical evidence across various disciplines.
In the scientific world that could be a theory, hypothesis, qualitative observation, prediction, or an inference. You can choose one.
To learn from observations in science, start by carefully recording your findings, noting details such as time, location, and conditions. Analyze the data for patterns or anomalies, and compare your observations with existing scientific literature to draw connections. Formulate hypotheses based on your observations and test them through experimentation. Lastly, engage in discussions with peers or mentors to gain different perspectives and enhance your understanding.
The first step in the scientific method is to make factual, careful and detailed observations. The next step is to form some hypothesis to explain the observations. You follow this by designing an experiment to test the validity of this hypothesis. If the experiment invalidates the hypothesis you then need to come up with another explanation and test this too. Finally you publish your observations, your hypothesis and experiments and results of these experiments. Other people can and should then repeat your work to test the veracity/validity of your work. But the scientific method should never stop this process of observation and testing even for things that we think we have a full explanation for.
it is a hypothesis
i dont have a hella idea
A set of controlled observations that test a proposed explanation are known as an experiment. The proposed explanation is known as the hypothesis of the experiment.
You write down the facts/observation you have and what those. You then come up with an possible explanation for what the facts/observations tell you . Following that you describe what you will do to test the validity of your explanation.
A hypothesis is a prediction about the outcome of a test or experiment. It is an educated guess based on existing knowledge or observations, and is used to guide scientific investigations.
In the scientific world that could be a theory, hypothesis, qualitative observation, prediction, or an inference. You can choose one.
proposed explanation for an observable phenomenon.
A theory is a well-supported explanation for phenomena based on observation, experimentation, and analysis. Data refers to the facts, figures, or information collected from experiments, surveys, or observations, which are used to support or refute a theory. In summary, a theory is an overarching explanation, while data are the specific observations that inform and test that theory.
In science, a prediction refers to a statement or explanation about what is expected to happen in a particular situation or experiment. It is based on existing knowledge, prior observations, and the use of logical reasoning. Predictions allow scientists to test their hypotheses and theories, as well as guide their research and investigations.
To learn from observations in science, start by carefully recording your findings, noting details such as time, location, and conditions. Analyze the data for patterns or anomalies, and compare your observations with existing scientific literature to draw connections. Formulate hypotheses based on your observations and test them through experimentation. Lastly, engage in discussions with peers or mentors to gain different perspectives and enhance your understanding.
Hypothesizing is the process of forming a tentative explanation or educated guess based on limited evidence or observations. It is an essential part of the scientific method and is used to guide further research and experimentation to test the validity of the hypothesis.
The first step in the scientific method is to make factual, careful and detailed observations. The next step is to form some hypothesis to explain the observations. You follow this by designing an experiment to test the validity of this hypothesis. If the experiment invalidates the hypothesis you then need to come up with another explanation and test this too. Finally you publish your observations, your hypothesis and experiments and results of these experiments. Other people can and should then repeat your work to test the veracity/validity of your work. But the scientific method should never stop this process of observation and testing even for things that we think we have a full explanation for.
Hypotheses in scientific research are formulated by making educated guesses or predictions based on existing knowledge and observations. Researchers use this hypothesis to guide their experiments and investigations to test its validity and draw conclusions.
it is a hypothesis