Suppose that the origin on a computer screen is at the lower left comer of the screen. A target moves along a straight line at a constant speed from point A 52 , 410 to point B 412 , 140 in 3 sec . a. Write parametric equations to represent the target's path as a function of the time t (in sec) after the target leaves its initial position. All distances are in pixels. b. Where is the target located 0.8 sec after motion starts? c. Suppose that a bullet is fired from a gun at a position of 212 , 150 . Suppose the bullet travels with uniform speed where both the horizontal component of velocity and vertical component of velocity is 40 pixels per second in the positive direction. Write parametric equations to represent the path of the bullet. d. If the bullet leaves the gun at the same time that the target begins its motion, will the bullet hit the target? If so, when and where?
Suppose that the origin on a computer screen is at the lower left comer of the screen. A target moves along a straight line at a constant speed from point A 52 , 410 to point B 412 , 140 in 3 sec . a. Write parametric equations to represent the target's path as a function of the time t (in sec) after the target leaves its initial position. All distances are in pixels. b. Where is the target located 0.8 sec after motion starts? c. Suppose that a bullet is fired from a gun at a position of 212 , 150 . Suppose the bullet travels with uniform speed where both the horizontal component of velocity and vertical component of velocity is 40 pixels per second in the positive direction. Write parametric equations to represent the path of the bullet. d. If the bullet leaves the gun at the same time that the target begins its motion, will the bullet hit the target? If so, when and where?
Solution Summary: The author calculates the parametric equation for uniform linear motion from A(52,410) to B
Suppose that the origin on a computer screen is at the lower left comer of the screen. A target moves along a straight line at a constant speed from point
A
52
,
410
to point
B
412
,
140
in
3
sec
.
a. Write parametric equations to represent the target's path as a function of the time
t
(in sec) after the target leaves its initial position. All distances are in pixels.
b. Where is the target located
0.8
sec
after motion starts?
c. Suppose that a bullet is fired from a gun at a position of
212
,
150
. Suppose the bullet travels with uniform speed where both the horizontal component of velocity and vertical component of velocity is
40
pixels per second in the positive direction. Write parametric equations to represent the path of the bullet.
d. If the bullet leaves the gun at the same time that the target begins its motion, will the bullet hit the target? If so, when and where?
Only 100% sure experts solve it correct complete solutions ok
rmine the immediate settlement for points A and B shown in
figure below knowing that Aq,-200kN/m², E-20000kN/m², u=0.5, Depth
of foundation (DF-0), thickness of layer below footing (H)=20m.
4m
B
2m
2m
A
2m
+
2m
4m
sy = f(x)
+
+
+
+
+
+
+
+
+
X
3
4
5
7
8
9
The function of shown in the figure is continuous on the closed interval [0, 9] and differentiable on the open
interval (0, 9). Which of the following points satisfies conclusions of both the Intermediate Value Theorem
and the Mean Value Theorem for f on the closed interval [0, 9] ?
(A
A
B
B
C
D
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, calculus and related others by exploring similar questions and additional content below.