No, displacement is a vector quantity that measures the change in position of an object from its initial point to its final point, while resultant is a vector that represents the sum or combination of all individual vectors acting on an object.
The formula for resultant displacement can be calculated using the Pythagorean theorem. It is given by: Resultant displacement = √(horizontal displacement^2 + vertical displacement^2)
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.
Resultant displacement is the single displacement that represents the overall motion of an object after undergoing a series of displacements. It is the vector sum of all individual displacements experienced by the object. The resultant displacement can be calculated by considering both the magnitude and direction of each displacement.
the largest possible resultant is if the two displacements are in the same direction, so resultant = 7 m (3+4=7) the minimum resultant is if they are in opposite directions, so minimum is 4-3= 1 m :D
Resultant displacement refers to the overall displacement resulting from the combination of two or more individual displacements. It is typically calculated by adding the individual displacements vectorially to determine the combined effect.
The formula for resultant displacement can be calculated using the Pythagorean theorem. It is given by: Resultant displacement = √(horizontal displacement^2 + vertical displacement^2)
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.
Resultant displacement is the single displacement that represents the overall motion of an object after undergoing a series of displacements. It is the vector sum of all individual displacements experienced by the object. The resultant displacement can be calculated by considering both the magnitude and direction of each displacement.
the largest possible resultant is if the two displacements are in the same direction, so resultant = 7 m (3+4=7) the minimum resultant is if they are in opposite directions, so minimum is 4-3= 1 m :D
Resultant displacement refers to the overall displacement resulting from the combination of two or more individual displacements. It is typically calculated by adding the individual displacements vectorially to determine the combined effect.
by using pytagorean theorem
46 squared + 23 squared = the resultant displacement squared. Pythagoras' theorem.
Displacement is typically added by combining two or more displacements vectorally. This involves adding the components of each displacement in the x, y, and z directions to find the resultant displacement. The magnitude and direction of the resultant displacement can then be determined using trigonometry or vector addition techniques.
Resultant displacement is a single vector that represents the combination of multiple displacements. It is calculated by adding or subtracting the individual displacements in a given direction. The resultant displacement gives the overall change in position from the initial point to the final point.
displacement+time divided by distance
Velocity=displacement(distance)/time.
At a position where destructive interference is complete, the resultant displacement is zero because the waves are completely out of phase and cancel each other out. This results in a net displacement of zero at that specific position.