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Switch to just one space after a period #2267

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Original file line number Diff line number Diff line change
Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = CommApp


description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>Now that you've demonstrated the ability of satellites to relay communications via one-off launches, it's time to create a network of them to provide full coverage of the Earth.<br><br>Launch a 4-satellite communication network where the satellites are dispersed enough, and in high enough orbits, to provide near-complete coverage of the Earth's surface.<br><br><b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>
description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>Now that you've demonstrated the ability of satellites to relay communications via one-off launches, it's time to create a network of them to provide full coverage of the Earth.<br><br>Launch a 4-satellite communication network where the satellites are sufficiently dispersed and in high enough orbits to provide near-complete coverage of the Earth's surface.<br><br><b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>

synopsis = Launch a 3 satellite Communications Network

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Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = CommApp


description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>Now that you've demonstrated the ability of satellites to relay communications via one-off launches, it's time to create a network of them to provide full coverage of the Earth.<br><br>Launch a 4-satellite communication network where the satellites are dispersed enough, and in high enough orbits, to provide near-complete coverage of the Earth's surface.<br><br><b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>
description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>Now that you've demonstrated the ability of satellites to relay communications via one-off launches, it's time to create a network of them to provide full coverage of the Earth.<br><br>Launch a 4-satellite communication network where the satellites are sufficiently dispersed and in high enough orbits to provide near-complete coverage of the Earth's surface.<br><br><b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>

synopsis = Launch a 4 satellite Communications Network

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Expand Up @@ -4,7 +4,7 @@ CONTRACT_TYPE
title = Molniya Communications Satellite (Early)
group = CommApp

description = <b>Program: Early Commercial Applications<br>Type: <color=blue>Optional</color></b><br><br>Now that satellite communications technology has been proven, launch more capable satellites to expand communication coverage further around Earth. Some customers want satellites that dwell longer over the higher latitudes using Molniya orbits. Launch a new communications satellite with the required specifications with the unique Molniya orbital parameters.<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color><br><br><b>The reward of this contract will slowly increase over time but will be reset to 0 after each completion.&br;<b>Current reward is at @rewardFactorPercent % of its nominal value. Elapsed/Expected Days: @elapsedDays / @RP0:expectedDays_EarlyComSat<br>Number of Contracts Completed: @index / unlimited</b>
description = <b>Program: Early Commercial Applications<br>Type: <color=blue>Optional</color></b><br><br>Now that satellite communications technology has been proven, launch more capable satellites to expand communication coverage further around Earth. Some customers want satellites that dwell longer over the higher latitudes using Molniya orbits. Launch a new communications satellite with the required specifications with the unique Molniya orbital parameters.<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color><br><br><b>The reward of this contract will slowly increase over time but will be reset to 0 after each completion.&br;<b>Current reward is at @rewardFactorPercent % of its nominal value. Elapsed/Expected Days: @elapsedDays / @RP0:expectedDays_EarlyComSat<br>Number of Contracts Completed: @index / unlimited</b>
genericDescription = Put a satellite with the required amount of communications satellite payload into the desired orbit.

synopsis = Launch a customer communication satellite into a Molniya orbit.
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Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = CommApp


description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>The previous launch of the first navigation satellite proved the theories that Doppler shift timing can be used to precisely locate a point or location on the surface of the Earth using satellites. Put that concept into operational use with the first rudimentary satellite navigation network.&br;&br;Build a navigation network with three NavSats that provide more frequent revisit rates than the single previous satellite. Make sure the satellites are spread around the Earth to provide reasonable coverage.&br;&br;<b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>
description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>The previous launch of the first navigation satellite proved the theories that Doppler shift timing can be used to precisely locate a point or location on the surface of the Earth using satellites. Put that concept into operational use with the first rudimentary satellite navigation network.&br;&br;Build a navigation network with three NavSats that provide more frequent revisit rates than the single previous satellite. Make sure the satellites are spread around the Earth to provide reasonable coverage.&br;&br;<b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>

synopsis = Launch a 3-satellite navigation network

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Original file line number Diff line number Diff line change
Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = CommApp


description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>The previous launch of the first navigation satellite proved the theories that Doppler shift timing can be used to precisely locate a point or location on the surface of the Earth using satellites. Put that concept into operational use with the first rudimentary satellite navigation network.<br><br>Build a navigation network with four NavSats that provide more frequent revisit rates than the single previous satellite. Make sure the satellites are spread around the Earth to provide reasonable coverage.&br;&br;<b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>
description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>The previous launch of the first navigation satellite proved the theories that Doppler shift timing can be used to precisely locate a point or location on the surface of the Earth using satellites. Put that concept into operational use with the first rudimentary satellite navigation network.<br><br>Build a navigation network with four NavSats that provide more frequent revisit rates than the single previous satellite. Make sure the satellites are spread around the Earth to provide reasonable coverage.&br;&br;<b><color=white>NOTE: You may choose only the 3-satellite or 4-satellite contract.</color></b><br><br><b><color=yellow>NOTE: The satellites will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>

synopsis = Launch a 4-satellite navigation network

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Expand Up @@ -4,12 +4,12 @@ CONTRACT_TYPE
title = Commercial Navigation Satellite (Early)
group = CommApp

description = <b>Program: Early Commercial Applications<br>Type: <color=blue>Optional</color></b><br><br>The First Navigation Satellite contract proved that measuring signals from a satellite is an effective method for determining position data on the surface of the Earth. Expand on this capability to create the first rudimentary satellite-based precision location network. At least 3 satellites are required to locate a position on a sphere, with a fourth necessary to determine vertical position. Launch at least 4 more navigation satellites into polar orbits.<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color></b><br><br><b>The reward of this contract will slowly increase over time but will be reset to 0 after each completion.<br><b>Current reward is at @rewardFactorPercent % of its nominal value. Elapsed/Expected Days: @elapsedDays / @RP0:expectedDays_EarlyComSat<br>Number of Contracts Completed: @index / unlimited</b>
description = <b>Program: Early Commercial Applications<br>Type: <color=blue>Optional</color></b><br><br>The First Navigation Satellite contract proved that measuring signals from a satellite is an effective method for determining position data on the surface of the Earth. Expand on this capability to create the first rudimentary satellite-based precision location network. At least 3 satellites are required to locate a position on a sphere, with a fourth necessary to determine vertical position. Launch at least 4 more navigation satellites into polar orbits.<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color></b><br><br><b>The reward of this contract will slowly increase over time but will be reset to 0 after each completion.<br><b>Current reward is at @rewardFactorPercent % of its nominal value. Elapsed/Expected Days: @elapsedDays / @RP0:expectedDays_EarlyComSat<br>Number of Contracts Completed: @index / unlimited</b>
genericDescription = Put a satellite with the required amount of navigation satellite payload into the desired orbit.

synopsis = Launch a Navigation Satellite for a customer.

completedMessage = Success! The navigation satellite was launched into the proper orbit. Precision satellite-based navigation is one step closer to being a reality.
completedMessage = Success! The navigation satellite was launched into the proper orbit. Precision satellite-based navigation is one step closer to being a reality.

sortKey = 499

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Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = CommApp
agent = Federation Aeronautique Internationale

description = <b>Program: Early Commercial Applications<br><b>Type: <color=green>Required</color></b><br><br>A Molniya orbit is a type of highly elliptical orbit with an inclination of 63.4 degrees, an argument of perigee of -90 degrees, and an orbital period of one half of a sidereal day. Place a satellite into a Molniya orbit.<br><br>There will be an orbit showing in the map view and tracking station. You do not have to place the satellite into this orbit, but it is instead meant to show you where your perigee and apogee should approximately be located, but more importantly, it shows the proper shape of the orbit.<br><br>Historical example: Molniya 1-1 (1,600kg, Molniya)<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>
description = <b>Program: Early Commercial Applications<br><b>Type: <color=green>Required</color></b><br><br>A Molniya orbit is a type of highly elliptical orbit with an inclination of 63.4 degrees, an argument of perigee of -90 degrees, and an orbital period of one half of a sidereal day. This keeps the satellite mostly to the northern hemisphere of the Earth. Place a satellite into a Molniya orbit.<br><br>There will be an orbit showing in the map view and tracking station. You do not have to place the satellite into this orbit, but it is instead meant to show you where your perigee and apogee should approximately be located, but more importantly, it shows the proper shape of the orbit.<br><br>Historical example: Molniya 1-1 (1,600kg, Molniya)<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>

synopsis = Launch a satellite into a Molniya orbit

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Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = CommApp
agent = Federation Aeronautique Internationale

description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>Through measuring the Doppler shift of radio signals transmitted from a satellite in a known orbit, it is possible for a receiver on the ground to establish their location, which would have many applications both civilian and military. To test the principle and develop receiver equipment, it is necessary to have a test navigational satellite in orbit. <br>Historical example: Transit 1B (119 kg, Thor-Ablestar).<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>
description = <b>Program: Early Commercial Applications<br>Type: <color=green>Required</color></b><br><br>By measuring the Doppler shift of radio signals from a satellite in a known orbit, it is possible for a receiver on the ground to establish their location, which would have many applications both civilian and military. To test the principle and develop receiver equipment, it is necessary to have a test navigational satellite in orbit. <br>Historical example: Transit 1B (119 kg, Thor-Ablestar).<br><br><b><color=yellow>NOTE: The satellite will be destroyed upon completion of the contract. This simulates transfer of the payload back to the customer.</color>

synopsis = Launch the first navigation satellite

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Expand Up @@ -7,7 +7,7 @@ CONTRACT_TYPE

tag = CrewedOrbitRequired

description = <b>Program: Crewed Orbit<br>Type: <color=green>Required</color></b><br><br>Reentry is brutally hot and dangerous, but it can be survivable with the right technology and equipment. We want you to design, build, and launch a craft that can survive a reentry and make a soft landing or splashdown on Earth. Note that orbital-speed suborbital flights are acceptable as well. Historically this research started with weapon reentry vehicles for the newly developing ICBM forces but the research, and rockets, were quite applicable elsewhere; reconnaissance satellite recovery vessels, crewed capsules, and interplanetary landers have also withstood this crucible.&br;&br;You may complete this contract up to two times. Second completion will require getting into orbit with a minimum perigee of 200 km.
description = <b>Program: Crewed Orbit or Early Earth Observation Satellites<br>Type: <color=green>Required</color></b><br><br>Reentry is brutally hot and dangerous, but it can be survivable with the right technology and equipment. We want you to design, build, and launch a craft that can survive a reentry and make a soft landing or splashdown on Earth. Note that orbital-speed suborbital flights are acceptable as well. Historically this research started with weapon reentry vehicles for the newly developing ICBM forces but the research, and rockets, were quite applicable elsewhere; reconnaissance satellite recovery vessels, crewed capsules, and interplanetary landers have also withstood this crucible.&br;&br;You may complete this contract up to two times. Second completion will require getting into orbit with a minimum perigee of 200 km.
genericDescription = Recover a craft from an orbital-velocity descent. Your vessel must reach a surface velocity of at least 6500 m/s.

synopsis = Recover a craft from an orbital-velocity descent
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Expand Up @@ -5,7 +5,7 @@ CONTRACT_TYPE
group = EOS
agent = Federation Aeronautique Internationale

description = <b>Program: Early Earth Observation Satellites<br>Type: <color=green>Required</color></b><br><br>Launch a satellite into an elliptical orbit with a new cosmic ray detector called a Cherenkov counter. This device is a different type of cosmic ray detector specifically calibrated for high-energy particles like neutrinos. <br><br><b><color="green">Make sure your craft contains a Cherenkov Counter and return 75% of the available science from High Earth Orbit. Science does not have to be collected in only 1 flight.</color></b><br><br>Historical example: Explorer 11 (37kg, Juno II)
description = <b>Program: Early Earth Observation Satellites<br>Type: <color=green>Required</color></b><br><br>Launch a satellite into an elliptical orbit with a new cosmic ray detector called a Cherenkov counter. This device is a different type of cosmic ray detector specifically calibrated for high-energy particles like neutrinos. <br><br><b><color="green">Make sure your craft contains a Cherenkov Counter and return 75% of the available science from High Earth Orbit. Science does not have to be collected in only 1 flight.</color></b><br><br>Historical example: Explorer 11 (37kg, Juno II)

synopsis = Launch a scientific satellite into an elliptical orbit with Cherenkov Counter experiment.

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