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What are both examples of vector quantities?
Examples of vector quantities include velocity (speed and direction) and force (magnitude and direction).
Is a vector quantity is always the same as a scalar quantity?
No, a vector quantity and a scalar quantity are different. A vector has both magnitude and direction, while a scalar has only magnitude. Velocity and force are examples of vector quantities, while speed and temperature are examples of scalar quantities.
Examples of vector 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)
Write differences between scaler and vector quantities?
Scaler Quantity- quantities which are described only by magnitude.Vector Quantity- quantities which are described by both magnitude as well as direction.
What are the characteristics of vector quantity?
Vector quantities have both magnitude and direction. They follow the laws of vector addition, where both the magnitude and direction of each vector must be considered. Examples of vector quantities include velocity, force, and acceleration.
What are both examples of vector quantities?
Examples of vector quantities include velocity (speed and direction) and force (magnitude and direction).
Is a vector quantity is always the same as a scalar quantity?
No, a vector quantity and a scalar quantity are different. A vector has both magnitude and direction, while a scalar has only magnitude. Velocity and force are examples of vector quantities, while speed and temperature are examples of scalar quantities.
Examples of vector 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)
Write differences between scaler and vector quantities?
Scaler Quantity- quantities which are described only by magnitude.Vector Quantity- quantities which are described by both magnitude as well as direction.
What are the characteristics of vector quantity?
Vector quantities have both magnitude and direction. They follow the laws of vector addition, where both the magnitude and direction of each vector must be considered. Examples of vector quantities include velocity, force, and acceleration.
What are the examples of vector?
Examples of vector quantity are displacement, velocity, acceleration, momentum, force, E-filed, B-field, torque, energy, etc.
What do you mean vector quantity?
A vector quantity is a physical quantity that has both magnitude (size or amount) and direction. Examples of vector quantities include velocity, force, and acceleration. This is in contrast to scalar quantities, which only have magnitude.
How are vector quantities?
Vector quantities have both magnitude and direction. They are represented by arrows to show the direction and their length represents the magnitude. Common examples include velocity, acceleration, and force.
What are vetor quantities?
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.
What are the examples of vector energy?
Examples of vector energy include kinetic energy and momentum. Kinetic energy is the energy an object possesses due to its motion, and momentum is the product of an object's mass and velocity. Both of these quantities have direction and magnitude, making them vector quantities.
What is a quantity that has direction?
the quantities which have both magnitude and direction are called vector quantities
A vector quanity has direction a scalar quanity does not?
Yes, that's correct. A vector quantity has both magnitude and direction, while a scalar quantity only has magnitude. Examples of vector quantities include force, velocity, and displacement, while examples of scalar quantities include mass, time, and temperature.
