A scientist must make accurate observations because usually these results are going to be communicated to others. Some people might even want to do the same experiment so you have to give the right directions before something bad happens. However, though, in experiments, scientists repeat their trails for more accurate results.
Scientists are limited by the capabilities of their equipment and technology, as well as by their own biases and limitations in perception. Additionally, natural phenomena may be inherently unpredictable or chaotic, which can also pose limits on what observations can be made.
Science is not simply a set of facts but also a plan of action- a procedure for processing and understanding certain types of information. To explain the behavior or a given part of nature, we must repeat the steps of the scientific method many times. Gradually we accumulate the knowledge necessary to understand what is going on.
An observer must use their senses—sight, hearing, touch, taste, and smell—to make observations about their environment. Additionally, tools such as microscopes, telescopes, or measuring instruments can enhance their ability to gather data and analyze details that may not be perceptible to the naked eye. Critical thinking and a systematic approach are also essential for interpreting observations accurately.
Observations should avoid being biased, making assumptions, and drawing overly generalized conclusions. It is important for observations to be objective, specific, and based on actual evidence in order to be reliable and useful for analysis.
Scientific theory involves a collection of concepts of observable phenomena expressed as quantifiable properties with rules (laws) that express relationships between the observations of such concepts. A theory is a good theory if it satisfies two requirements: It must accurately describe a large class of observations on the basis of a model that contains only a few arbitrary elements, and it must make definite predictions about the results of future observations.
Before formulating a hypothesis a scientist must gather information and make observations about a question or problem they've identified.
A scientist must make accurate observations because usually these results are going to be communicated to others. Some people might even want to do the same experiment so you have to give the right directions before something bad happens. However, though, in experiments, scientists repeat their trails for more accurate results.
In order for a scientist to solve a problem or learn more about a phenomenon, they must first see it in order to know that it exists. Also, observations allow scientists to make educated guesses, called hypotheses, to try and explain what is causing a phenomenon.
To be accurate, a theory must continue to explain what
So others can repeat the experiment and make observations
Make observations
Make observations
a hypothesis
They explain all of the observations about a topic that scientist s have at a certain time.
Scientists are limited by the capabilities of their equipment and technology, as well as by their own biases and limitations in perception. Additionally, natural phenomena may be inherently unpredictable or chaotic, which can also pose limits on what observations can be made.
1. So they can record what they have learned 2. They can write down or jot down there observations 3. Scientist can write big or words they don't know 4. Scientist can write down plans or projects in there notebook
If scientists are to be able to draw meaningful conclusions from their experiments, they must have accurate records. If you do not know exactly what happened, you will not be able to figure out exactly what it means.