Scientific laws describe things that happen the same way every time. Gravity, foe example is a scientific law because, no matter how many times you jump into the air, you will always come back down.
One example of scientific law, is The Law Of Gravity.
Scientific law is proven (for the most part) and scientific theory is not proven yet."However scientific law is a law that cannot be broken.
Scientific law means it WILL happen and i don't remeber scientific theroy. Sorry!
the scientific law is science
A scientific law is a law that should be taken to be universally applicable. It attempts to describe an observation in nature and applies to all of the different sciences.A scientific law is a theory that has been tested and is believed to be true. Laws are usually used in Physics, whereas in Biology and Chemistry, the same definition is used to describe a scientific theory.Hence,The law of gravityThe theory of evolutionBoth are considered to be true in equal amounts, it's just a difference in terminology.A scientific law i just simply a "law" that has to do with science. For example, gravity. A scientific law is a pattern found in nature! A scientific law is a statement based on repeated experimental observations that describes some aspect of the universe. A scientific law always applies under the same conditions, and implies that there is a causal relationship involving its elements.Scientific laws describe things that happen the same way every time.
Gravity is a fundamental force of nature, not a scientific law. Scientific laws describe how nature behaves under certain conditions, while gravity is a force that causes objects to be attracted to each other. The law that describes gravity is Newton's law of universal gravitation.
A scientific law describes a consistent and universal relationship found in nature, such as the law of gravity. A scientific theory is a well-substantiated explanation based on evidence and research that can be used to predict outcomes or understand phenomena, such as the theory of evolution. Scientific laws are more specific and describe what happens, while scientific theories explain why and how it happens.
Yes, a scientific law describes a pattern or relationship that has been observed repeatedly in the natural world. It summarizes a consistent phenomenon that can be used to make predictions and explain how things work.
Yes
No, evolution is not considered a scientific law. Evolution is a scientific theory supported by extensive evidence from various fields like genetics, paleontology, and comparative anatomy. Laws describe natural phenomena or observed patterns, while theories explain those patterns.
A scientific law is a term used in science to describe a statement about a natural phenomenon that has been observed to occur consistently under certain conditions. Scientific laws describe what happens in nature without explaining why it happens.
A scientific law describes a consistent and universal relationship observed in nature, like the law of gravity. A scientific theory is a well-substantiated explanation of some aspect of the natural world based on evidence and reasoning, like the theory of evolution. Laws describe what happens, while theories explain why and how it happens.
Scientific laws describe things that happen the same way every time. Gravity, foe example is a scientific law because, no matter how many times you jump into the air, you will always come back down.
The Fibonacci sequence, where each number is the sum of the two preceding ones, is commonly observed in nature, such as in the arrangement of leaves, petals, and seeds in plants.
The generalization about predictable ways in which matter and energy behave is called a scientific law. Scientific laws describe observed phenomena and are based on repeated experimental observations.
A scientific law is called a law because it is a statement based on repeated experimental observations that describe a natural phenomenon. It is a fundamental principle that has been universally accepted as true within a specific field of study. Laws help to predict and understand the behavior of the natural world.