- #1
suryanarayan
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relative velocity and resultant velocity?also in a connected(with strings) pulley system,how can we calculate the acceleration and velocities of the pullies and the masses connected onto it?
What is the difference between relative velocity and resultant velocity?
- Thread starter suryanarayan
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In summary, relative velocity refers to the velocity of an object as seen by an observer in their own frame of reference, while resultant velocity is the overall velocity of an object under the influence of multiple factors. In a pulley system with strings, the acceleration and velocities of the pulleys and masses can be calculated by considering the heights and solving simultaneous equations. The term 'resultant' is used for the sum of multiple vectors, not just velocity.
- #2
tiny-tim
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hi suryanarayan! 
resultant velocity is an alternative (and in my opinion less satisfactory) name for relative velocity
eg if the velocity of the wind is u, and the velocity of the plane relative to the wind is v,
then the velocity of the plane relative to the ground is u + v, which is sometimes called the resultant velocity since it is the resultant of the two vectors
if there's only one string, call the height of one of the pulleys "a", and see what happens to the heights of the other items
then differentiate once for speed, and twice for acceleration
(if there's n strings, you need to start with the heights of n items, and solve the simultaneous equations)
suryanarayan said:
resultant velocity is an alternative (and in my opinion less satisfactory) name for relative velocity
eg if the velocity of the wind is u, and the velocity of the plane relative to the wind is v,
then the velocity of the plane relative to the ground is u + v, which is sometimes called the resultant velocity since it is the resultant of the two vectors
if there's only one string, call the height of one of the pulleys "a", and see what happens to the heights of the other items
then differentiate once for speed, and twice for acceleration
(if there's n strings, you need to start with the heights of n items, and solve the simultaneous equations)
- #3
sophiecentaur
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Loosely, I'd say that relative velocity refers to how one observer in his own frame would see another moving object. Resultant velocity would be the velocity of an object (in some fixed reference frame) when there are more than one influences on its motion. OR, what you get when you start off by Resolving the motion of an object into two arbitrary directions (e..g. vertical and horizontal) to make your calculations easier. You then you add the two vectors together to get the overall resultant velocity.
The word 'resultant' is used for the sum of many vectors in general (forces, acceleration. magnetic field etc.)
The word 'resultant' is used for the sum of many vectors in general (forces, acceleration. magnetic field etc.)
1. What is relative velocity?
Relative velocity is the velocity of an object or observer in relation to another object or observer. It takes into account the motion of both objects and their direction of motion.
2. What is resultant velocity?
Resultant velocity is the net velocity of an object after taking into account all of its individual velocity components. It is the overall velocity in a given direction.
3. What is the main difference between relative velocity and resultant velocity?
The main difference between relative velocity and resultant velocity is that relative velocity considers the motion of two objects or observers in relation to each other, while resultant velocity is the overall velocity of a single object after taking into account all of its individual velocity components.
4. How are relative velocity and resultant velocity related?
Relative velocity is used to determine the resultant velocity of an object. The relative velocities of two objects can be added or subtracted, depending on their direction, to calculate the resultant velocity.
5. What are some real-life examples of relative velocity and resultant velocity?
An example of relative velocity is two cars driving in opposite directions on a highway. An example of resultant velocity is a person walking on a moving train. The person's velocity relative to the train is their walking speed, but their resultant velocity relative to the ground is the combination of their walking speed and the speed of the train.
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