
Q.5) A hiker pauses to watch a squirrel P run up a partially downed tree trunk....
1. A firm operates in the long run. Its long-run production function is given as: Q = LK, where Qis units of output, Lis units of labor, and K is units of capital. (a) Obtain six integer combinations of Land K when Q = 12. (b) Obtain six integer combinations of Land K when Q = 18. (c) Use the twelve integer combinations of Land K obtained in parts (a) and (b) to construct two isoquants on a two-dimensional plane....
The slider P can be moved inward by means of the string
S, while the slotted arm rotates about point O.
The angular position of the arm is given by θ =
0.66t - 0.048t2, where θ is
in radians and t is in seconds. The slider is at
r = 1.68 m when t = 0 and thereafter is drawn
inward at the constant rate of 0.17 m/s. Determine the velocity
vand acceleration a of the slider
when t...
70 60 50 40 30 20 10 -19 10 20 30 40 50 60 You are a lifeguard and spot a drowning child 60 meters along the shore and 70 meters from the shore to the child. You run along the shore and for a while and then jump into the water and swim from there directly to child. You can run at a rate of 3 meters per second and swim at a rate of 1.1 meters per second....
what is the magnitude of P?
Question 3) The skater is moving counterclockwise on aa circular track with radius r 60.0(m). Note the direction of "up" in the drawing The mass of the skater is m The angle showing where the skater is on the circle is 35.0 For the friction between the skater and the track, p, 0.100 50.ofkg Up Horizontal There is a rocket attached to the skater providing a thrust force P in the same direction that...
5:16 lLTE ) Done 1 of 5 Assessment #1 (Kinematics of a Particle) Rectilinear Motion (Straight linc Motion 3. The position of a point during the interval of time from r otor 6 is given by ** * m. (a) What is the maximum velocity during this interval of time, and at what time does it occur? (b) What is the acceleration when the velocity is a maximum? (20 m/s, 0 m/s 3. A test projectile is fired horizontally into...
Now evaluate the mass and momentum into and out of the CV shown with 1.0s y Rs 1.5 at (2) Let p 1200 kg/m2, Uoo- 20 m/s and cylinder radius R 0.01 m 1 cm and Az 1 m Note: The flow does not cross streamlines, so there is no flow across the side boundaries. Exit (2) NO SCALE Variable u vs y at x2-0 Inlet (1) y- H1 and v 0 constant u Uo constant v0 A) Find mass...
2. (54 points) Short-run costs. Suppose w 1, r 10 and K 20. C )q3 +200 a) (5 points) We have TC = WG) q3 + rK = On one graph (with q on the horizontal axis), graph the Total Cost, Variable Cost, and Fixed Cost functions. Pay attention to the shape of the curves, where they intercept the axes and each other (if they do), and the position of the curves relative to each other b) (9 points) Using...
* This is all the information given
QUESTION 1 (iii,iv) PLEASE!!!:
Examine the car performance when the angle of both the front and
rear wings is set to θ = 10◦. In all the analysis that follows
ignore frictional losses other than drag. Determine:
(iii) What is the maximum speed the vehicle can safely corner a
bend with R = 30 m (ans. 108Km/hr).
What is the power required at this speed? (ans. 27.8KW)
(iv) What is the maximum speed...
* This is all the information given
QUESTION 1 (iii,iv) PLEASE!!!:
Examine the car performance when the angle of both the front and
rear wings is set to θ = 10◦. In all the analysis that follows
ignore frictional losses other than drag. Determine:
(iii) What is the maximum speed the vehicle can safely corner a
bend with R = 30 m (ans. 108Km/hr).
What is the power required at this speed? (ans. 27.8KW)
(iv) What is the maximum speed...
I
want the math lab code for theses problems in a unique way
Theory A projectile is launched from point A up an incline plane that makes an angle of 10 with the horizontal. The mountain is 6,000 m high. Vo 10° Figure 1: Flightpath of a projectile. If we neglect the air resistance, the flight path of a projectile launched at an initial speed vo and an angle θ of departure relative to the horizontal is a parabola (see...