true
Scientific investigations that involve making observations typically include descriptive studies, field studies, and experiments where data is collected through sensory experiences. These investigations often focus on gathering qualitative or quantitative data to understand phenomena, identify patterns, or test hypotheses. Observations can be made in various contexts, such as ecological surveys, behavioral studies, and laboratory experiments. Overall, observation is a fundamental aspect of the scientific method that aids in forming conclusions and generating further questions.
An explanation for observations based on reasoning from what you already know is often referred to as a hypothesis. It involves using existing knowledge and logical reasoning to interpret data or phenomena, allowing us to make predictions or understand underlying mechanisms. This process is fundamental in scientific inquiry, where observations lead to questions that are addressed through research and experimentation. Essentially, it's a way to connect the dots between known facts and new observations to derive meaningful conclusions.
Science can answer questions that are testable and falsifiable, typically those related to the natural world and phenomena. These questions often involve observations, experiments, and empirical data, allowing for systematic investigation and analysis. Examples include inquiries about the behavior of physical systems, biological processes, and chemical reactions. However, questions about subjective experiences, ethics, or values may fall outside the scope of scientific inquiry.
I don't know. Simple as that. Go ask your teacher or someone. Why don't you find out yourself, LAZY!?
The proper order of the steps of the scientific method typically includes: 1) making observations, 2) formulating a hypothesis, 3) conducting experiments to test the hypothesis, 4) analyzing the data, and 5) drawing conclusions. Based on the results, the hypothesis may be accepted, rejected, or revised. Finally, the findings are often shared with the scientific community.
true
Questions about observations in the physical world are called empirical questions. These questions seek to understand and explain phenomena through direct observation or experience. They are often answered using scientific methods and evidence.
observations, curiosity, and current gaps in knowledge. Scientists often seek to understand natural phenomena, solve a problem, or test a hypothesis, which leads to the development of scientific questions. These questions are refined through research and experimentation to ultimately advance our understanding of the world.
Scientific investigations that involve making observations typically include descriptive studies, field studies, and experiments where data is collected through sensory experiences. These investigations often focus on gathering qualitative or quantitative data to understand phenomena, identify patterns, or test hypotheses. Observations can be made in various contexts, such as ecological surveys, behavioral studies, and laboratory experiments. Overall, observation is a fundamental aspect of the scientific method that aids in forming conclusions and generating further questions.
Scientific observations are often made in the form of measurements because measurements provide quantitative data that can be used to analyze and understand natural phenomena objectively. Measurements allow researchers to record and compare data, test hypotheses, and make predictions based on empirical evidence. By quantifying observations, scientists can establish patterns, relationships, and principles that form the foundation of scientific knowledge.
making observations and asking questions.
A scientific hypothesis is a testable explanation for a phenomenon or a proposed solution to a scientific problem. It is often based on observations and prior knowledge, and serves as a starting point for further research and experimentation.
Scientific questions are based on observable evidence and can be tested through research and experimentation, leading to objective conclusions. Nonscientific questions are often subjective, speculative, or based on personal beliefs, and do not follow the systematic methods of the scientific process.
Science can answer questions that are testable and falsifiable, typically those related to the natural world and phenomena. These questions often involve observations, experiments, and empirical data, allowing for systematic investigation and analysis. Examples include inquiries about the behavior of physical systems, biological processes, and chemical reactions. However, questions about subjective experiences, ethics, or values may fall outside the scope of scientific inquiry.
Scientific Theory is tested by observations and experiments predicted by the theory. If the observations confirm the theory the theory is validated if not the theory is not validated. Experiments themselves need validation, often there are errors in the experiments or observations, e.g Michaelson and Morley Aether experiment and red shift observations.
a scientific approach to answering questions ~ ap3x
Observations