Aerial photographs at a scale of 1:6000 are required to cover an area of 6 x...
Aerial photography is to be taken of a tract of land that is 8 x 8 mi2. Flying height will be 6000 ft above terrain, and the camera has a focal length of 6 inches. If the focal plane opening is 9 x 9 inches, and minimum side overlap is 40%, how many flight lines will be needed to cover the tract for the given data?
It is required to obtain aerial photos of a large tract of land at a scale of 1:25,000 using a 150 mm focal length camera. What should be the average flying height above the ground?
Q1.) An aerial camera has a 9½-inch square film format and a 6-inch focal length lens. What must the flying height (in meter) be to obtain a scale of 1/2000? (Hint: 1 inch=2.54 cm) Q2.)If the distance of satellite on elliptical orbit at the point of A from two focal points is 3AU and 1AU on 21st of June, what would be the sum of distance of satellite from point B to two focal points on 21st of December in...
Required information Area of Rectangles and Triangles As we progress in economics courses, there are some concepts that are best handled geometrically as opposed to (or in addition to) algebraically. We might, for example, need to calculate the area of a triangle, a rectangle, or a trapezoid. Therefore, this document will cover the basics of each, and give examples for practice. The area of a rectangle or square A rectangle is a four-sided figure that has two sets of parallel...
Required information Area of Rectangles and Triangles As we progress in economics courses, there are some concepts that are best handled geometrically as opposed to (or in addition to) algebraically. We might, for example, need to calculate the area of a triangle, a rectangle, or a trapezoid. Therefore, this document will cover the basics of each, and give examples for practice. The area of a rectangle or square A rectangle is a four-sided figure that has two sets of parallel...
Required information Area of Rectangles and Triangles As we progress in economics courses, there are some concepts that are best handled geometrically as opposed to (or in addition to) algebraically. We might, for example, need to calculate the area of a triangle, a rectangle, or a trapezoid. Therefore, this document will cover the basics of each, and give examples for practice. The area of a rectangle or square A rectangle is a four-sided figure that has two sets of parallel...
answer question 6 pls
Water Volume and Mass 1. Position a meterstick vertically on a flat surface, such as a wall or the side of a lab bench. Be sure Unit for y-variable- y-axis the metric scale of the meterstick is on the outside and secure the meterstick to the wall or lab bench with two strips of masking tape. 200Scale for y-variable Graph Title 2. Drop a ball as close as possible to the meterstick and measure (a) the...
Actual Size Nominal Size Weight (b/m) (kg/m) (in x in) (in x in) (mm x mm) 1 x 1 3/4 x 3/4 19x 19 0.14 1 x2 3/4 x 1 1/2 19 x 30 0.27 1 x3 3/4 x 2 1/2 19 x 64 0.47 1 x4 3/4 x 3 1/2 19 x 89 0.64 1 x 6 3/4 x5 1/2 19x 140 1.00 1x8 3/4 x7 1/4 19x 184 132 19 x 235 19 x 286 1 x 10...
1. Convert 60 miles per hour into meters per second. 2. A student is trying to remember some formulas from geometry. In what follows, assume A is area, V is volume, and all other variables are lengths. Determine which formulas are dimensionally consistent. (c) V-0.5bh, (e) V nd 3. The length of a warchouse is measured to be 95.00m. The height of the roof is measured to be 1,350.00cm. The width is measured to be 0.0015km. Calculate the volume of...
Using the values provided in Table 21-1, minimum
sewage elevation in interceptor of 112.60 m, maximum sewage
elevation in interceptor of 112.80 m, discharge elevation to
stilling well of 116.40 m, an average design flow of 8,600
m3/d, peaking factor for peak hour of 2.8 and minimum
factor of 0.49.
A. Determine the most efficient screw pump diameter
(in m)
B. How many flights are recommended
C. How many pumps are recommended in the final design?
Typical/comment TABLE 21-1 Typical...