This is on the Apex online school exam. You should study instead of askig questions in middle of test.
The region within the lower portion of the thermosphere where particles become electrically charged is called the ionosphere. This layer of the atmosphere contains a high concentration of ions and free electrons, which allows it to reflect radio waves and facilitate long-distance communication.
An electric field is a region in which charged particles can be pushed or pulled due to the presence of other charged particles. The strength of the electric field determines the force experienced by charged particles within the region.
The electrons, are the negatively charged particles that are part of an atom. They hang out in what is called an electron cloud around the nucleus of the atom. We might further say that those electrons exist in what we term electron shells, and within energy levels within those shells.
Charged chemical particles that dissolve in body fluids are called ions. They can carry an electrical charge and play important roles in many biological processes within the body.
What Thomson called corpuscles are now referred to as electrons.
ionosphere
The region within the lower portion of the thermosphere where particles become electrically charged is called the ionosphere. This layer of the atmosphere contains a high concentration of ions and free electrons, which allows it to reflect radio waves and facilitate long-distance communication.
The ionosphere is found within the thermosphere layer of the Earth's atmosphere. It extends from about 80 km to 550 km above the Earth's surface and contains charged particles that can reflect radio waves.
The electrically charged particles in plasma are called ions and electrons. Ions are atoms or molecules that have gained or lost electrons, resulting in a net positive or negative charge, while electrons are negatively charged particles that move freely within the plasma.
The shape of a magnetic field affects the path and motion of charged particles within it. Charged particles tend to move in curved paths within a magnetic field, following the field lines. The strength and direction of the magnetic field determine how the charged particles will behave within it.
The ionosphere, a layer of the Earth's atmosphere, acts like a giant magnet by interacting with charged particles such as electrons and protons from the sun. These charged particles are attracted and guided by the Earth's magnetic field within the ionosphere, creating phenomena like the auroras.
An electric field is a region in which charged particles can be pushed or pulled due to the presence of other charged particles. The strength of the electric field determines the force experienced by charged particles within the region.
The electrons, are the negatively charged particles that are part of an atom. They hang out in what is called an electron cloud around the nucleus of the atom. We might further say that those electrons exist in what we term electron shells, and within energy levels within those shells.
Charged chemical particles that dissolve in body fluids are called ions. They can carry an electrical charge and play important roles in many biological processes within the body.
The strength of the magnetic field affects the movement of charged particles within it. A stronger magnetic field will cause the charged particles to move in a more curved path, while a weaker magnetic field will result in less curvature in their movement.
Yes, light is produced by accelerating charged particles, such as electrons, within atoms or molecules. When these charged particles change speed or direction, they emit energy in the form of electromagnetic radiation, which includes visible light.
What Thomson called corpuscles are now referred to as electrons.