I will first answer this from an electrical viewpoint. The maximum positive excursion from zero would be the PEAK, or MAXIMUM portion of the cycle.
From a magnetic point, it would be POSITIVE.
The negative excursion of the electrical cycle (below zero) would be the MINIMUM.
It would be NEGATIVE from a magnetic perspective.
No. The magnitude of a vector can't be less than any component.
No. In order for the magnitude of a vector to be zero, the magnitude of all of its components will need to be zero.This answer ignores velocity and considers only the various N-axis projections of a vector. This is because direction is moot if magnitude is zero.
Yes. A vector has magnitude and direction. If the vectors have equal magnitude and directly opposite directions their sum will be zero.
No.
In physics, if the balance reading is zero then the magnitude and direction of acceleration would also be zero. There can be no movement or force if everything is balanced.
The magnitude of the zero vector is zero, hence the name.
If all the components of a vector are zero, the magnitude of the vector will always be zero.
The distance from zero on a number line is called the absolute value.
No. The magnitude of a vector can't be less than any component.
No. In order for the magnitude of a vector to be zero, the magnitude of all of its components will need to be zero.This answer ignores velocity and considers only the various N-axis projections of a vector. This is because direction is moot if magnitude is zero.
No.
No.
no,zero cannot be added to a null vector because zero is scalar but null vector is a vector,although null vector has zero magnitude but it has direction due to which it is called a vector.
A number's distance from zero on a number line is its magnitude or "absolute value."absolute value or magnitude.absolute value
Zero is.
Yes. A vector has magnitude and direction. If the vectors have equal magnitude and directly opposite directions their sum will be zero.
The sum of two numbers depends on their signs and relative magnitudes.Both positive: sum positive Both zero: sum zero Both negative: sum negative Larger magnitude positive, smaller magnitude negative: sum positive Larger magnitude negative, smaller magnitude positive: sum negative Same magnitude, one positive and other negative: sum zero.