Find the distance between Miami, Fla., and Seattle, Wash., and find the bearing from each location...

• Radius of the Earth: R⊕ = 6378.137 km (Vallado, 2001) • Latitude and longitude of...

• Radius of the Earth: R⊕ = 6378.137 km (Vallado, 2001) • Latitude and longitude of Miami: (25.762◦ N, 80.192◦ W) • Latitude and longitude of Seattle: (47.608◦ N, 122.335◦ W) Find the latitiude and longitude of the point northeast of Seattle and Miami that forms an equilateral triangle with those two points. Express the coordinate values in degrees, and round to three decimal places.

Each student in a physics lab is assigned to find the location where a bright object...

Each student in a physics lab is assigned to find the location where a bright object may be placed in order that a concave mirror with radius of curvature r = 40.4 cm will produce an image 3.3 times the size of the object. Two students complete the assignment at different times using identical equipment, but when they compare notes later, they discover that their answers for the object distance are not the same. Find the two correct answers for...

1. Use a calulator to find a decimal approximation for each value. sec(-216 degrees 13')= (round...

1. Use a calulator to find a decimal approximation for each value. sec(-216 degrees 13')= (round to seven decimal places) 2. A space vechile is orbiting Earth in a circular orbit. What radian measure corresponds to (a) 2.5 orbits? (b) 5/4 orbits? (a) the radian measure corresponding to 2.5 orbits is ___. (Type an axact answer in terms of pi. Type an interger or a simplified fraction) b) the radian measure corresponding to 5/4 orbits is ___. (Type an exact...

Questions 1 through 6 work with the length of the sidereal year vs. distance from the...

Questions 1 through 6 work with the length of the sidereal year vs. distance from the sun. The table of data is shown below. Planet Distance from Sun (in millions of miles) Years (as a fraction of Earth years) ln(Dist) ln(Year) Mercury 36.19 0.2410 3.5889 -1.4229 Venus 67.63 0.6156 4.2140 -0.4851 Earth 93.50 1.0007 4.5380 0.0007 Mars 142.46 1.8821 4.9591 0.6324 Jupiter 486.46 11.8704 6.1871 2.4741 Saturn 893.38 29.4580 6.7950 3.3830 Uranus 1,794.37 84.0100 7.4924 4.4309 Neptune 2,815.19 164.7800 7.9428...

In this exercise, you will analyze the supply-demand equilibrium of a city under some special simplifying...

In this exercise, you will analyze the supply-demand equilibrium of a city under some special simplifying assumptions about land use. The assumptions are: (i) all dwellings must contain exactly 1,500 square feet of floor space, regardless of location, and (ii) apartment complexes must contain exactly 15,000 square feet of floor space per square block of land area. These land-use restrictions, which are imposed by a zoning authority, mean that dwelling sizes and building heights do not vary with distance to...