The reasoning of proving whether the experiment works or not, is acceptable or not, is reasonable or not.
You want to have a hypothesis to test. A hypothesis is kind of like a reasoned guess what you expect to happen. The results of your experiment will either support your hypothesis or it wont.
To eliminate the possibility of hidden or unknown variables the scientist must a control experiment.
A Theory is a hypothesis that has withstood testing, but cannot be proven infallibly true, meaning that the only way to form a theory is through scientific testing. Reasoning is necessary to form a hypothesis, which will be considered a theory once tested and supported by the results. Two types of reasoning are Inductive Reasoning and Deductive Reasoning.Inductive ReasoningMaking observations and extrapolating to come to a conclusion beyond the scope of current information. i.e.The grass outside is greenthereforeAll grass is greenDeductive ReasoningUsing logic to reach a conclusion, specifically when the conclusion necessarily follows the premise(s). i.e.This mouse is grayandAll gray mice are fastthereforeThis mouse is fastOnce you have a hypothesis, it can be tested using the Scientific Method.Scientific MethodAsk a questionDo background researchConstruct a hypothesisTest your hypothesis using an experimentAnalyze data and draw a conclusionCommunicate your resultsIf the results of the experiment support the hypothesis, then it is considered true. If others are able to duplicate the experiment and achieve the same results, the hypothesis will be considered a theory.inductive
The most common type of reasoning used to form a hypothesis is inductive reasoning. This involves observing specific instances or data and drawing general conclusions from them. By identifying patterns or correlations, researchers can propose a hypothesis that can be further tested through experimentation. Inductive reasoning allows for the generation of testable predictions based on existing evidence.
Hypothesis formation often relies on deductive reasoning, where general principles are applied to specific situations to predict outcomes. Inductive reasoning is also commonly used, as it involves observing patterns and making generalizations based on specific instances. Additionally, abductive reasoning can play a role, as it seeks the most likely explanation for a set of observations. Together, these reasoning methods help scientists and researchers develop testable hypotheses.
You want to have a hypothesis to test. A hypothesis is kind of like a reasoned guess what you expect to happen. The results of your experiment will either support your hypothesis or it wont.
the 3 kinds of hypothesis are: 1. alternative: this is the hypothesis that is affirmative, positive, and approving..... this gives a positive possible result of the experiment. 2. null: this is a negative hypothesis about the experiment........ 3. cause and effect: this kind of hypothesis gives a cause and effect hypothesis.... this has the "if & then" clause...... (example: "if sunlight affects the growth of plants, then it might slow down or fasten the plant's growth.")
The word hypothesis is a singular, common, abstract noun; a word for a supposition or proposed explanation; a proposition made as a basis for reasoning.
To eliminate the possibility of hidden or unknown variables the scientist must a control experiment.
A Theory is a hypothesis that has withstood testing, but cannot be proven infallibly true, meaning that the only way to form a theory is through scientific testing. Reasoning is necessary to form a hypothesis, which will be considered a theory once tested and supported by the results. Two types of reasoning are Inductive Reasoning and Deductive Reasoning.Inductive ReasoningMaking observations and extrapolating to come to a conclusion beyond the scope of current information. i.e.The grass outside is greenthereforeAll grass is greenDeductive ReasoningUsing logic to reach a conclusion, specifically when the conclusion necessarily follows the premise(s). i.e.This mouse is grayandAll gray mice are fastthereforeThis mouse is fastOnce you have a hypothesis, it can be tested using the Scientific Method.Scientific MethodAsk a questionDo background researchConstruct a hypothesisTest your hypothesis using an experimentAnalyze data and draw a conclusionCommunicate your resultsIf the results of the experiment support the hypothesis, then it is considered true. If others are able to duplicate the experiment and achieve the same results, the hypothesis will be considered a theory.inductive
A Theory is a hypothesis that has withstood testing, but cannot be proven infallibly true, meaning that the only way to form a theory is through scientific testing. Reasoning is necessary to form a hypothesis, which will be considered a theory once tested and supported by the results. Two types of reasoning are Inductive Reasoning and Deductive Reasoning.Inductive ReasoningMaking observations and extrapolating to come to a conclusion beyond the scope of current information. i.e.The grass outside is greenthereforeAll grass is greenDeductive ReasoningUsing logic to reach a conclusion, specifically when the conclusion necessarily follows the premise(s). i.e.This mouse is grayandAll gray mice are fastthereforeThis mouse is fastOnce you have a hypothesis, it can be tested using the Scientific Method.Scientific MethodAsk a questionDo background researchConstruct a hypothesisTest your hypothesis using an experimentAnalyze data and draw a conclusionCommunicate your resultsIf the results of the experiment support the hypothesis, then it is considered true. If others are able to duplicate the experiment and achieve the same results, the hypothesis will be considered a theory.inductive
The most common type of reasoning used to form a hypothesis is inductive reasoning. This involves observing specific instances or data and drawing general conclusions from them. By identifying patterns or correlations, researchers can propose a hypothesis that can be further tested through experimentation. Inductive reasoning allows for the generation of testable predictions based on existing evidence.
Deductive reasoning moves from general premises to specific conclusions. This type of reasoning starts with a hypothesis or theory and tests it against evidence to reach a logical conclusion.
Hypothesis formation often relies on deductive reasoning, where general principles are applied to specific situations to predict outcomes. Inductive reasoning is also commonly used, as it involves observing patterns and making generalizations based on specific instances. Additionally, abductive reasoning can play a role, as it seeks the most likely explanation for a set of observations. Together, these reasoning methods help scientists and researchers develop testable hypotheses.
The kind of reasoning you do on your fingers.
Discovery science is mostly about describing nature, whereas hypothesis-driven science tries to explain nature.
Theory gives direction to research. If you did not have any theory (or hypothesis) to test, you would be unlikely to be able to figure out what kind of experiment or observation you should be doing.