To combine two displacements, you can use vector addition. If the displacements are represented as vectors, you add their corresponding components (i.e., the x and y components, if in two dimensions) to obtain a resultant displacement vector. The resultant's magnitude and direction can then be calculated using the Pythagorean theorem and trigonometry, respectively. Alternatively, you can graphically represent the displacements as arrows and use the head-to-tail method to find the overall displacement.
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.
When oxygen and hydrogen combine, they form water.
Sudden displacements along fault fissures can cause tremors and earthquakes.
Any distance between 3m and 15m, depending on the angle between the two individual displacements.
Two or more atoms combine to form a molecule.
When you combine two displacements in opposite directions, you subtract their magnitudes. This means that the resulting displacement will be the difference between the magnitudes of the two displacements, with the direction of the larger displacement determining the overall direction of the combined displacement.
Displacements in opposite directions are combined by using vector addition. If the displacements have the same magnitude, they cancel each other out. If they have different magnitudes, the combined displacement is the difference between the two displacements in the direction of the larger displacement.
To determine if two objects have equal displacements, compare the magnitudes and directions of their displacements. If the magnitudes (distances) and directions traveled by each object are the same, then their displacements are equal. Displacement is a vector quantity that takes into account both distance and direction.
Two displacements are equal when they have the same magnitude and direction. This means that if you were to represent the displacements as vectors, they would overlap perfectly in both length and orientation. Additionally, they can be considered equal regardless of the starting point, as long as the endpoints align as per the specified conditions.
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
When two or more waves travel through the same medium and their displacements combine, it is called interference. Interference can result in the waves reinforcing each other (constructive interference) or canceling each other out (destructive interference).
The principle is superposition. This means that when two waves overlap, their displacements add up to create a new wave that is the sum of the two individual waves.
When two troughs meet and interfere, they will combine to create a larger trough with a lower amplitude. This is known as destructive interference, where the two waves are out of phase and their displacements at that point cancel each other out.
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.
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.
Angular displacements measured in radians or stradians, lengths of lines measured in units of length.
Displacements because displacements will tell your friend how far to go and which direction to go, while distances will only tell how far to go.