These two are synonyms. Both speed and velocity are the time derivative of the diplacement. Confusion may come from the fact that these words are sometimes used to describe a scalar quantity and sometimes a vector qty. Proper usage of these would be in the vectorial form, however, it is often used under the scalar form, when direction or orientation is trivial.
To know an object's velocity, you need both its speed (magnitude of the velocity) and direction. Velocity is a vector quantity that includes both the speed and direction of motion. It is typically represented as a magnitude and a direction, such as 50 m/s east.
When stating the velocity of an object, you need to know both the speed (how fast the object is moving) and the direction in which it is moving. Velocity is a vector quantity that combines magnitude (speed) and direction, so both pieces of information are necessary to describe it accurately.
velocity
By definition, it would have the same speed and direction as the compared object. This can be evidenced by the two objects having an unchanging spatial relationship: i.e. the objects remain the same direction and distance from each other.
When you know both the speed and direction of an object's motion, you know its velocity. Velocity describes both how fast an object is moving (speed) and in what direction it is moving.
when you know both speed and direction of an objects motion you know the velocity of an object.
Velocity
I'm pretty sure its the acceleration. If its not that, its the Velocity.
The distance it travels in a caertain amount of time as well as the direction
Velocity is speed and direction
To know an object's velocity, you need both its speed (magnitude of the velocity) and direction. Velocity is a vector quantity that includes both the speed and direction of motion. It is typically represented as a magnitude and a direction, such as 50 m/s east.
When stating the velocity of an object, you need to know both the speed (how fast the object is moving) and the direction in which it is moving. Velocity is a vector quantity that combines magnitude (speed) and direction, so both pieces of information are necessary to describe it accurately.
To know an object's velocity, you need to know its speed and direction. You can measure speed by calculating how long an object takes to arrive at a new position. So by knowing an object's starting position, ending position, and the time it took to get there, you can calculate its average velocity. In a more advanced calculation, you could choose starting and ending positions that are extremely close to one another and calculate "instantaneous velocity." Velocity is known as a "vector value". A vector not only has a length, but a direction. In this case, "length" is the same as "speed", and direction is its change in position.
velocity
By definition, it would have the same speed and direction as the compared object. This can be evidenced by the two objects having an unchanging spatial relationship: i.e. the objects remain the same direction and distance from each other.
The direction in which it's moving. This is a very important concept, and a great question.
When you know both the speed and direction of an object's motion, you know its velocity. Velocity describes both how fast an object is moving (speed) and in what direction it is moving.