Energy.
Momentum.(In some cases only)
Examples of vector quantities include velocity (speed and direction) and force (magnitude and direction).
All other quantities which described in terms of base quantities are called base quantities.
Vector quantities are quantities that have directionality as well as magnitude. Displacement (meters North) vs Distance (meters) Velocity (meters per second North) vs Speed (meters per second)
Scaler Quantity- quantities which are described only by magnitude.Vector Quantity- quantities which are described by both magnitude as well as direction.
Examples of base quantities include length, mass, time, electric current, temperature, amount of substance, and luminous intensity. Derived quantities are those that are defined in terms of base quantities, such as velocity (length/time), acceleration (length/time^2), force (mass * acceleration), and energy (mass * (length^2/time^2)).
Examples of vector quantities include velocity (speed and direction) and force (magnitude and direction).
dynamic and static
There are vast quantities of students that answer questions by plagiarizing examples from the internet.
Examples of physical quantities are mass,volume, length, time,temperature,electric current.that's all thank you
All other quantities which described in terms of base quantities are called base quantities.
Wholesale businesses buy goods in large quantities form producers to sell in smaller quantities.
Vector quantities are quantities that have directionality as well as magnitude. Displacement (meters North) vs Distance (meters) Velocity (meters per second North) vs Speed (meters per second)
work,velocity,force and acceleration
Scaler Quantity- quantities which are described only by magnitude.Vector Quantity- quantities which are described by both magnitude as well as direction.
Examples of base quantities include length, mass, time, electric current, temperature, amount of substance, and luminous intensity. Derived quantities are those that are defined in terms of base quantities, such as velocity (length/time), acceleration (length/time^2), force (mass * acceleration), and energy (mass * (length^2/time^2)).
Vector quantities are physical quantities that have both magnitude and direction. This means that in addition to knowing the amount of the quantity (magnitude), you also need to know the direction in which it acts. Examples of vector quantities include displacement, velocity, and force.
These quantities are referred to as physical quantities in the field of physics. They are measurable properties that can be described using mathematical values and units. Area and volume are examples of scalar physical quantities, while velocity is an example of a vector physical quantity.