Velocity is the slope of the line on a D-t graph
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the answer is icons...i saw it in my text book
It doesn't. But velocity does effect mass : as velocity increases, mass increases.
the velocity will be velocity divided by square root of 2
Terminal velocity.
By an arrow, a vector. Velocity is a vector quantity that must have both magnitude (speed) and direction (bearing).
Vectors can be represented graphically using arrows. The length of the arrow represents the magnitude of the vector, and the direction of the arrow represents the direction in which the vector is pointing. Vectors can also be represented by coordinates in a coordinate system.
The relationship between acceleration, velocity, and time can be expressed graphically by plotting acceleration on the y-axis, velocity on the x-axis, and time changing over the course of the graph. This can show how changes in acceleration affect velocity over time. The slope of the velocity-time graph represents acceleration.
A vector is made of both magnitude and direction. It represents a quantity that has both size and direction, commonly used in physics and mathematics to describe quantities such as velocity, force, and acceleration. Vectors are often represented graphically as arrows.
The symbol for motion is usually represented by an arrow pointing in the direction of movement. It can also be represented graphically by a line with an arrowhead to indicate the direction of motion.
a vector quantity is represented graphically, by a directed straight-line segment. let us consider an example. suppose a bus is moving towards east with a velocity of 50km/hr. To represent velocity of the bus, we first indicate east-west and north-south direction on the paper.Then we can easily represent vectors.
This is graphed by looking the nose of Baroja ang punch her like a punching bag
They can be represented by a line made with a #2 pencil. The length of the line is made proportional to the magnitude of the vector, and some kind of identifying mark is made on or near one end of the line to show the direction of the vector.
Velocity.
The formula for kinetic energy is 0.5 times the mass multiplied by the velocity squared, represented as 0.5mv2.
Momentum = mass x velocity. If you divide out the velocity you get mass.
A force vector can be represented graphically by an arrow pointing in the direction of the force, with its length proportional to the magnitude of the force. The starting point of the arrow represents the origin of the force, and the arrowhead indicates the direction in which the force is acting.