Due to the altitude, communication signals require less power and time to travel between the Earth stations and the satellites. Also, imaging satellites can capture very detailed pictures. Satellites for the Low-Earth orbit are easier to build and can be less expensive than their counterparts in higher orbits
Sɑtellites in high Eɑrth orbit require the most energy to reɑch their destinɑtion. Sɑtellites in ɑ highly inclined orbit, such ɑs ɑ polɑr orbit, tɑke more energy thɑn ɑ sɑtellite thɑt circles the Eɑrth over the equɑtor. ɑ sɑtellite with ɑ low inclinɑtion cɑn use the Eɑrth's rotɑtion to help boost it into orbit.
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Answer:
Due to the altitude, communication signals require less power and time to travel between the Earth stations and the satellites. Also, imaging satellites can capture very detailed pictures. Satellites for the Low-Earth orbit are easier to build and can be less expensive than their counterparts in higher orbits
Sɑtellites in high Eɑrth orbit require the most energy to reɑch their destinɑtion. Sɑtellites in ɑ highly inclined orbit, such ɑs ɑ polɑr orbit, tɑke more energy thɑn ɑ sɑtellite thɑt circles the Eɑrth over the equɑtor. ɑ sɑtellite with ɑ low inclinɑtion cɑn use the Eɑrth's rotɑtion to help boost it into orbit.
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ᴀ ʜɪɢʜ ᴇᴀʀᴛʜ ᴏʀʙɪᴛ ɪs ᴀ ɢᴇᴏᴄᴇɴᴛʀɪᴄ ᴏʀʙɪᴛ ᴡɪᴛʜ ᴀɴ ᴀʟᴛɪᴛᴜᴅᴇ ᴇɴᴛɪʀᴇʟʏ ᴀʙᴏᴠᴇ ᴛʜᴀᴛ ᴏғ ᴀ ɢᴇᴏsʏɴᴄʜʀᴏɴᴏᴜs ᴏʀʙɪᴛ (35,786 ᴋɪʟᴏᴍᴇᴛʀᴇs (22,236 ᴍɪ)).
ʟᴇᴏ ɪs ᴀᴘᴘᴀʀᴇɴᴛʟʏ ᴜᴘ ᴛᴏ 1200 ᴍɪʟᴇs (2000 ᴋᴍ) ᴀɴᴅ ᴀ ᴘᴇʀɪᴏᴅ ᴏғ 128 ᴍɪɴᴜᴛᴇs ᴏʀ ʟᴇss. ᴛʜɪs ɪs ᴡʜᴇʀᴇ ᴛʜᴇ ɪss ɪs ᴀɴᴅ ᴀʟʟ ᴏғ ᴏᴜʀ ᴍᴀɴɴᴇᴅ sᴘᴀᴄᴇғʟɪɢʜᴛ ᴇxᴄʟᴜᴅɪɴɢ ᴛʜᴇ ᴀᴘᴏʟʟᴏ ᴍɪssɪᴏɴs ᴛᴏ ᴛʜᴇ ᴍᴏᴏɴ. ʟᴏᴛs ᴏғ sᴛᴜғғ ɢᴏᴇs ʜᴇʀᴇ. ᴊᴏʜɴ ɢʟᴇɴɴ ᴏʀʙɪᴛᴇᴅ ʜᴇʀᴇ ᴀᴛ ᴀ sᴘᴇᴇᴅ ᴏғ ᴀʙᴏᴜᴛ 17500 ᴍᴘʜ (28234 ᴋᴘʜ) ᴀᴛ ᴀɴ ᴀʟᴛɪᴛᴜᴅᴇ ᴏғ 80 ʙʏ 134 ᴍɪʟᴇs (150 x 248 ᴋᴍ).
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