Mathematics, 04.12.2019 05:31 migos0917
Suppose you throw a ball with horizontal part of the velocity x'(0) = 20 m/s and vertical part of the velocity y'(0) = 10 m/s. assuming that the gravitational force is constant (g = 9.8 m/s2) and that air resistance is proportional to the square of the velocity we obtain z" =-kk' /(x)2 + (y')2 " =-9 - ky' (x)2 + (y')2 x(0) = 0, x'(0) = 20, y(0) = 0, y(0) = 10. assuming the air resistance constant k= 0.1 m-1 find (a) the maximum height the ball will attain (b) how far from you will the ball hit the ground. details: for solutions of all differential equations you need to use the classical runge-kutta method developed in class. in parts a and b above you need to use newton's method.
Answers: 1
Mathematics, 21.06.2019 19:40
Which system of linear inequalities is represented by the graph?
Answers: 1
Mathematics, 21.06.2019 21:10
Lines b and c are parallel. what is the measure of 2? m2 = 31° m2 = 50° m2 = 120° m2 = 130°
Answers: 2
Mathematics, 21.06.2019 22:30
If x-1 and x+3 are the factors of x3+10x2+ax+b find a and b
Answers: 1
Suppose you throw a ball with horizontal part of the velocity x'(0) = 20 m/s and vertical part of th...
Mathematics, 10.09.2021 16:40
Physics, 10.09.2021 16:40
Mathematics, 10.09.2021 16:40
Mathematics, 10.09.2021 16:40
Chemistry, 10.09.2021 16:40
History, 10.09.2021 16:40
English, 10.09.2021 16:40
Health, 10.09.2021 16:40
Social Studies, 10.09.2021 16:40
Mathematics, 10.09.2021 16:50
Computers and Technology, 10.09.2021 16:50