The drag-free motion of a particle is defined by the following component equations in the X, YCartesian coordinate system:1.2h= (Vo cos α) t and Ty = (Vo sin α) t-,12where Vo-200 m/s, α-60° and g-9.81 m/s. At t-40 s, find the components of thevelocity and acceleration vectors in the X, Y Cartesian coordinates. Draw vector diagrams of thevelocity and acceleration vectors in the Cartesian coordinates, including the unit vectors.2.The velocity components of a particle are given asThe initial conditions of position are r t0)y(t). Att 1s:(a) Find the components of the position and acceleration vectors in the Cartesian coordinates.(b) Determine the velocity and acceleration components in the Polar coordinates(c) Draw vector diagrams to demonstrate that the same velocity and acceleration vectors areobtained for both the Cartesian and Polar coordinate systems. Use the vector diagrams toshow the vector components, unit vectors, and units.

Answered: The drag-free motion of a particle is…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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4. A stunt plane flying at the Reno Air Races is moving through the sky. The rectangular coordinates describing its motion are: x = -0.74t³ + 2.5t² + 10.25t y = -6.23t² + 16.45t + 8.94 where x and y are given in ft and t is given in seconds. a. Calculate the velocity vector, v, and acceleration, a, of the plane after 10 seconds (velocity is in ft/s and acceleration is in ft/s²). You may want to look back at your Topic 2 notes to recall how position, velocity, and acceleration are related. Your final answer should be given in vector form. b. Calculate the magnitude of the velocity (in mph) and the acceleration (in ft/s²) at t = 10 sec. [Ans. to Check: v = 132.46 mph; a = 41.32 ft/s²]
hello, can you do a step by step solution with explaination for me thank you so much
1 Velocities are measured at different locations using a data logger and the field is given by the technician in the following vector form. Given that. du du ax = +u-+v. +w du du ôt əx ду əz V = 3tî +xzj+t Find the magnitude of velocity and acceleration at point (1,1,1) at time t = 1 second. Write the acceleration vector. If the fluid is incompressible, show that the flow field satisfies the conservation of mass. zj+ty²k m/s Əv dv dv Əv +u- +v +w- at Əx ду əz dw dw dw dw + w a ₂ = +u Ət Əx dy əz +v
Consider the motion of a soccer ball that is kicked from the point (Xo-Yo) = (0,0) with an initial velocity of (uovo) = (40,8) m/s. Assume the x-axis is horizontal, the positive y-axis is vertical (opposite g), the ground is horizontal, and only the gravitational force acts on the object. a. Find the velocity and position vectors for t≥ 0. b. Graph the trajectory. c. Determine the time of flight and range of the soccer ball. d. Determine the maximum height of the soccer ball.
DYNAMICS Question 2: While the car in the figure is standing at point A above, it moves downward with a = 0.981-0.013v ^ 2 m / s ^ 2 acceleration. Find Vb, which is the velocity in the existence of point B. The unit of speed is m / s. Please be careful, thank you.
Matlab code please
c. Derive the piston instantaneous acceleration as a function of the crank angle. . Piston Acceleration Speed dUp dUp d de dt dᎾ - (a sin(0) [1. + = @= cos(0) √R²-sin²( Son ² (1)D) w ²
Please draw the vector diagram and explain the process to solving this question (relative velocity)

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