Showing posts with label 3-D projectile trajectory. Show all posts
Showing posts with label 3-D projectile trajectory. Show all posts

Friday, November 2, 2018

-D projectile trajectory A projectile is fired with an initial velocity

Three-D projectile trajectory A projectile is fired with an initial velocity-

3-D projectile trajectory A projectile is fired with an initial velocity of 250 m/s at an angle of θ = 65 relative to the ground. The projectile is aimed directly north. Because of a strong wind blowing to the west, the projectile also moves in this direction at a constant speed of 30 m/s

v0=250; g=9.81; theta=65; x0=3000; vx=-30; v0z=v0*sin(theta*pi/180); v0y=v0*cos(theta*pi/180); t=2*v0z/g; tplot=linspace(0,t,100); z=v0z*tplot-0.5*g*tplot.^2; y=v0y*tplot; x=x0+vx*tplot; xnowind(1:length(y))=x0; plot3(x,y,z,'k-',xnowind,y,z,'k--') grid on axis([0 6000 0 6000 0 2500]) xlabel('x (m)'); ylabel('y (m)'); zlabel('z (m)')
projectile,projectile motion,projectile motion problems,projectile motion physics,projectile motion equations,projectile motion examples,trajectory,projectile motion formula,projectile motion definition,projectile motion lecture,projectile motion calculator,unity projectile,projectile motion class 11,projectile motion in hindi,how to solve projectile motion problems,trajectory definition physics,trajectory of a projectile

Black-Scholes formula-R

 Black-Scholes formula-R > BlackScholes <- function(TypeFlag = c("c", "p"), S, X, Time, r, b, sigma) { TypeFla...