Aparticle moves in the xy plane with constant acceleration. at time zero, the particle is at x = 6.0 m, y = 10.0 m, and has velocity v = 1.0 m/s î + 6.0 m/s ĵ. the acceleration is given by the vector a = 5.0 m/s2 î + 7 m/s2 ĵ.
(a) find the velocity vector at t = 10.0 s.
(b) find the position vector at t = 1.0 s.
(c) give the magnitude and direction of the position vector in part (b).

What practical value did astronomy offer to ancient civilizations?

How many excess electrons must be present on each sphere if the magnitude of the force of repulsion between them is 4.57×10−21 newtons?

Find the steady-state temperature at the center of the plate = /2, = /2) for sums of w from n=1 to n=19 (only odd values). find the value of n for which the change in /2, /2) is less than 1% from the value at the previous n. at this point, we consider the solution converged. does the value of the temperature at the center seem reasonable? in this part, the values of x and y are constant scalar values. you should produce a plot of the value of n on the horizontal and the estimate of the temperature at the center of the plate on the vertical. b. using the value of n (or larger) that resulted in convergence in part (a), create a contourf plot of the temperature distribution across the entire plate. use enough spatial subdivisions to create a useful plot. comment on the results. hint: you need to determine what “x” and “y” values to use to make your t matrix. i recommend using a different number of x and y values. use enough x and y values so that the plot is “smooth”.