constructive interference
The resultant vector IS the sum of the individual vectors. Its magnitudecan be the sum of their individual magnitudes or less, but not greater.
No. The largest possible resultant magnitude is the sum of the individual magnitudes.The smallest possible resultant magnitude is the difference of the individual magnitudes.
No.
Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.
In mechanical design, a coumpound angle is the resultant of two individual angles that are perpendicular to each other.
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.
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.
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.
The resultant displacement would be 15 meters. This is because displacements add up like vectors, following the rules of vector addition.
A resultant wave is the combined wave that results from the superposition of two or more individual waves. It takes into account the amplitude and phase of each wave to determine the resulting wave pattern.
No, changing the order of displacements in a vector diagram does not affect the magnitude or direction of the resultant displacement. The resultant displacement depends only on the initial and final positions, not the order in which the displacements are added.
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
The resultant is 220 ms North (1450 - 1230 = 220). It is the net displacement when adding the two displacements in opposite directions.
100 km and 75 km are displacements, NOT velocities. The resultant displacement is 25 km north,
Resultant amplitude is the maximum displacement of a wave from its equilibrium position. It is the overall magnitude of the wave's oscillation, taking into account any interference or superposition of multiple waves.
When two forces act in the same direction, they are added together to create a resultant force that is equal to the sum of the two individual forces. This is known as the principle of superposition in physics.
The resultant vector IS the sum of the individual vectors. Its magnitudecan be the sum of their individual magnitudes or less, but not greater.