Three ways that knowledge gained through scientific discoveries can benefit the world around you are Revolution, Evolution, and Regression. Examples of these are the discovery of electricity (revolutionary), the application of the laws of thermodynamics to refridgeration (evolutionary), and the replacement of herion in asprin with acetylsalicylic acid (Regression).
Scientific knowledge is based on empirical evidence gathered through scientific experimentation and investigations
Absolutely, the scientific method is the very backbone of experimenting and only through experimenting can scientists make discoveries. The scientific method is necessary to ensure validity, and reliability, without it we can't trust the results to be accurate or reliable.
Ideally, scientific knowledge should be objective and available to anyone with the ability to observe carefully and think rationally. Scientific knowledge builds upon previous discoveries to more accurately describe the objective world. Scientific knowledge is not absolute or unchanging. When new knowledge or discoveries contradict previous science, it must be independently verified by many different researchers. If the new discovery withstands careful scrutiny, then it must be reconciled with previous science either by modifying it or overthrowing it completely. A good example modifying previous science is Einstein's general theory of relativity, which states that time and space are not absolutes, in contradiction with Newton's view of the Universe. We still teach and use Newtonian mechanics, however, because at very low velocities (relative to the speed of light) and weak gravitational fields, Newtonian principles give a good approximation. An example of overthrowing a previous theory is the ether theory of light propagation. Light waves were thought to propagate through an invisible ether, but Michelson and Morley showed that the speed of light is invariant relative to earth's orbit, demonstrating that no such ether exists.
A scientific hypothesis is an "educated guess" about a result or solution based on prior knowledge and observation. It is the first step in the scientific method. The hypothesis must be something that can be supported or defended through experimentation or observation.
In general terms, a "scientific attitude" consists of a disciplined commitment to careful observation and experimentation as the surest means of obtaining new knowledge or refining already-established knowledge of empirical phenomena. It may be developed through formal educational programs or through conscious choice on the part of an individual who engages in self-guided study and practice of a scientific nature.
technology
Benjamin Franklin is the American leader recognized for his scientific discoveries and inventions during the Enlightenment period.
It is rare that true scientific achievement or advancement can be attributed solely to chance. Scientific knowledge is gained through careful testing and experimentation; repeated many times. There are some events, such as the discovery of penicillin, which begin with a random event but the resulting scientific discoveries are by and large the result of hard work and careful analysis.
Scientific knowledge is based on empirical evidence gathered through scientific experimentation and investigations
Scientific and technological discoveries are accepted if their evidence can be empirically validated through rigorous experimentation, observation, and analysis. Consistent replication of results by multiple researchers and the ability to make predictions based on the discovery also contribute to its acceptance within the scientific community.
Scientific method-Acquiring knowledge in scientific method will have strong basics and more rational. The knowledge can be acquired from books and experiments Unscientific method-This kind of knowledge will be only a hypothesis and belief. This can be achieved through experience and from elders
Aristotle
Solving technological problems can produce new scientific knowledge.
Three key accomplishments of early exploration include the discovery of new lands and trade routes, the exchange of goods and ideas between different cultures, and the expansion of knowledge about the world through mapping and scientific discoveries.
Absolutely, the scientific method is the very backbone of experimenting and only through experimenting can scientists make discoveries. The scientific method is necessary to ensure validity, and reliability, without it we can't trust the results to be accurate or reliable.
Albert Einstein helped others by sharing his knowledge and discoveries through his scientific research and writings. He also used his platform and influence to advocate for social causes, such as civil rights and promoting peace. Additionally, Einstein mentored and collaborated with young scientists, supporting their development and success in the scientific community.
Because knowledge is based on evidence, perception is not. (Although that does depend on the interpretation of the wrod "perception")