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Distance is the scalar quantity which does not have any direction but the displacement is the both the distance and direction. Hence displacement is the vector quantity. So the answer for the above question is DISPLACEMENT
Yes. Vectors contain both magnitude and direction. Graphically three vectors of equal magnitude added together with a zero sum would be an equilateral triangle.
Yes, if they are pointing in opposite directions (separated by 180°).
To add two vectors that aren't parallel or perpindicular you resolve both of the planes displacement vectors into "x' and "y" components and then add the components together. (parallelogram technique graphically)AnswerResolve both of the planes displacement vectors into x and y components and then add the components
The general rule for adding vectors is to hook them together "head to tail" and then draw in a resultant vector. The resultant will have the magnitude and direction that represents the sum of the two vectors that were added.
Edward and his family are sightseeing. They walk two blocks north, four blocks west and two blocks south. All together they have walked blocks and have a total displacement magnitude only of 8. 2+4+2=8
8 R1CO95- Well eight not 8. ^_^
8 R1CO95- Well eight not 8. ^_^
The combined displacement vector will have a magnitude of 8m. This is found by simply adding the magnitudes of the two original displacement vectors together (3m + 5m = 8m), since they are in the same direction.
Displacement is combined by vector addition, where the magnitude and direction of each displacement vector are added together to find the resultant displacement. This can be done graphically or algebraically by breaking down the displacements into components along the x and y axes. The resultant displacement is the vector that starts at the initial point of the first displacement and ends at the final point of the last displacement.
Yes, distance can be fully described with a magnitude and a unit. The magnitude represents the numerical value of the distance, while the unit provides the scale or reference point for that value (e.g. meters, miles, kilometers). Together, the magnitude and unit provide a complete description of the distance.
If two displacement vectors add up to zero, it means they are equal in magnitude but opposite in direction. This implies that the two displacements cancel each other out when added together.
In physics, distance is the unit which only has magnitude and not the directions.Hence,the term used for the measurement of distance and direction together is known as displacement.Distance is a scalar quantity.Distance + direction =Displacement .It is a vector quantity.
To define a vector quantity, you need both magnitude (size or length) and direction. These two quantities together determine the overall displacement or change in position of an object.
When two displacement vectors are in the same direction, you add them together to find the resultant displacement. This is because they are working together to move an object further in that direction.
When you add two displacement vectors together, the result is a new displacement vector that represents the combined effect of both original vectors. This new vector represents the total distance and direction moved from the starting point to the end point.
Distance is the scalar quantity which does not have any direction but the displacement is the both the distance and direction. Hence displacement is the vector quantity. So the answer for the above question is DISPLACEMENT