Another factor that determines the magnitude of the electric potential is the amount of charge on the particle creating the electric field. The electric potential is directly proportional to the charge creating the field.
The magnitude of the electric force between particles is also determined by the amount of charge on each particle. The greater the charge, the stronger the electric force.
The magnitude of the force between two charges is determined by the product of the magnitudes of the charges and inversely proportional to the square of the distance between them, as described by Coulomb's law. The force is greater with larger charges and decreases as the distance between the charges increases.
-- Distance is a scalar quantity, whereas displacement is a vector. -- Distance is the integral of magnitude of displacement. -- Magnitude of displacement is always less than or equal to distance. -- The two quantities are equal when the motion is in a straight line.
The magnitude of displacement is equal to distance when an object moves in a straight line without changing direction. This occurs when displacement and distance have the same direction.
The magnitude of the displacement is always equal to or greater than the distance traveled. This is because the magnitude of displacement is the shortest distance between the initial and final positions, while distance traveled is the total length of the path taken.
The magnitude of the electric force between particles is also determined by the amount of charge on each particle. The greater the charge, the stronger the electric force.
How bright the object would be if it was the same distance from Earth as the sun is
In addition, the sign of the answer will be the same as the sign of the addend with the greatest magnitude (distance from zero).
Don't you mean isolated charge?
"Apparent magnitude" is the star's brightness after the effects of distance. "Absolute magnitude" is the star's brightness at a standard distance.
Distance. Absolute magnitude is a measure of the intrinsic brightness of a star, independent of its distance from Earth.
Apparent magnitude is the brightness as observed from earth, while absolute magnitude is the brightness of a star at a set distance. The apparent magnitude considers the stars actual brightness as well as it's distance from us, but absolute magnitude takes the distance factor out so that star brightnesses can be directly compared.
The standard distance is 10 parsecs. At this distance the star's apparent magnitude equals its absolute magnitude. A star 100 parsecs away has an absolute magnitude 5 magnitudes brighter than its apparent magnitude. 1 parsec is 3.26 light-years.
The absolute magnitude is the magnitude (brightness) an object would have at a standard distance - how bright would it look at a standard distance. For a star or galaxy, the standard distance of 10 parsecs is commonly used.
The magnitude of the force between two charges is determined by the product of the magnitudes of the charges and inversely proportional to the square of the distance between them, as described by Coulomb's law. The force is greater with larger charges and decreases as the distance between the charges increases.
-- Distance is a scalar quantity, whereas displacement is a vector. -- Distance is the integral of magnitude of displacement. -- Magnitude of displacement is always less than or equal to distance. -- The two quantities are equal when the motion is in a straight line.
Absolute magnitude