JennAshley19 said:A particle undergoes three displacements. The first has a magnitude of 15m and makes and angle of 35 degrees with the positive x axis. The second has a magnitude of 7m and makes an angle of 163 degrees with the positive x-axis. After the third displacement the particle returns to its initial position.
Find the magnitude of the third displacment. Answer in units of m.
JennAshley19 said:I have the diagram I don't know what to plug the given into though.
"Finding magnitude of a third displacement" is a scientific method used to determine the overall displacement of an object after undergoing three consecutive displacements. It involves using mathematical formulas and vector analysis to calculate the magnitude and direction of the resulting displacement.
Knowing the magnitude of a third displacement can help scientists understand the overall movement and change in position of an object. It also allows for the prediction and analysis of future displacements.
The magnitude of a third displacement is affected by the magnitudes and directions of the individual displacements, as well as the angles between them. It can also be affected by external forces such as friction or air resistance.
The magnitude of a third displacement can be calculated using the Pythagorean theorem or the law of cosines. These formulas involve taking the square root of the sum of the squares of the individual displacements, or using the cosine function to find the angle between them.
Finding the magnitude of a third displacement is used in various fields such as physics, engineering, and navigation. It can be applied to determine the distance traveled by a moving object, the displacement of a vehicle, or the trajectory of a projectile. It is also used in GPS systems to calculate the position of a moving object based on its previous displacements.