Electron motion is a perfect example of how quirky quantum science is. When not being observed, an electron acts like a wave of energy. When being observed, it acts like a particle. So scientists describe the location of an electron as a probability.
they don't.
explain
You can state why she inspires you and why you like her.
A scanning electron microscope will scan the surface and an electron microscope looks inside.
Isaac Newton.
they don't.
Galileo believed that it was necessary for a scientist to describe how things move (kinematics) before he can explain the causes of motion (dynamics).
Describe is what it is and explain is why it is as it is
Describe is what it is and explain is why it is as it is
Describing involves providing details or characteristics about something, typically focusing on its key components or features. Discussing involves examining a topic in more depth, considering different perspectives, analyzing the implications, and potentially exploring connections with other ideas or concepts.
describe and explain child's right?
scientist tell you that so they can inform you on things
A scientist would not use a graph to explain the methodology.
A scientist would not use a graph to explain the methodology.
Classical free electron theory could not explain many physical properties. In 1928, Sommerfeld developed a new theory applying quantum mechanical concepts and Fermi-Dirac statistics to the free electrons in the metal. This theory is called quantum free electron theory.
With a model, a scientist can explain or analyze an object, system, or concept in more detail.
With a model, a scientist can explain or analyze an object, system, or concept in more detail.