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Explore the need for space suits to protect astronauts in extreme conditions, such as lack of oxygen, temperature changes, and radiation exposure. See the evolution of space suits from the Mercury to the Extravehicular Mobility Unit (EMU).
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You will become unconscious within 15 seconds because there is no oxygen Your blood and body fluids will boil and then freeze because there is little or no air pressure Your skin, heart, and other internal organs will expand because of the boiling fluids Why do Astronauts need Space Suits? This photo shows what will happen to fluids in the microgravity of space
You will be exposed to extreme changes in temperature: 248°F (120°C) in the sunlight and -148°F (-100°C) in the shade You will be exposed to various types of radiation such as solar wind (charged particles emitted from the sun) and cosmic rays Why do Astronauts need Space Suits?
Why do Astronauts need Space Suits? • Inside the spacecraft the atmosphere can be controlled so that special clothing is not needed • There is no atmospheric pressure and oxygen in space to sustain life so to explore and work in space human beings must take their environment with them An astronaut inside the ISS
Supply oxygen Protect the body from bombardment from micrometeoroids Insulate the wearer from the temperature extremes of space Remove heat and moisture generated by sweat Protect the body from space radiation The Space Suit should:
Be airtight and resistant to external influences It should allow as much unrestricted movement as possible It should have a large tensile strength because of the gas pressure inside the garment The Space Suit also should:
Allow for communication in airless space The radio communication gear allows the astronauts to keep in touch with each other and with the astronauts inside the space station It also has a very sensitive alarm system in case a call for help is needed The Space Suit also should: Communications Carrier Assembly with built-in earphones and a microphone
The evolution of the space suit from large and bulky to streamlined (1969 to 2020?)
The Mercury space suit was un-pressurized and served only as a backup for a possible spacecraft cabin pressure loss (an event that never happened) It had laced boots, a helmet that attached by a collar ring, and gloves It was cooled by an external fan and received oxygen via tubes connected to the space craft Evolution of the Spacesuit The Mercury space suit (1961-1963)
The Apollo suit had to be redesigned for extra vehicular activities (EVA’s) It had boots, gloves, a communications cap and a clear plastic helmet During lift-off the suit’s oxygen and cooling water were supplied by the ship Evolution of the Spacesuit An Apollo space suit from 1975
The Apollo pressure space suit for EVA’s consisted of many layers: Three layers of nylon to hold the pressure Five layers of aluminized Mylar interwoven with Dacron and two layers of Kapton for heat protection Two layers of Teflon coated cloth (nonflammable) for protection from scrapes Evolution of the Spacesuit The Spacesuit worn by Neil Armstrong on Apollo 11 mission (1969)
During the early flights of the space shuttle astronauts wore a brown flight suit to protect them if the cabin pressure failed As space shuttle flights became more routine astronauts stopped wearing pressurized space suits during lift off and began wearing light blue cover-alls, black boots, and a communications helmet Evolution of the Spacesuit Space suits on early shuttle missions Crew of Challenger just prior to launch
After the Challenger disaster in 1986 NASA required all astronauts to wear pressurized space suits during lift-off and re-entry These orange pressurized suits had a communications cap, helmet, boots, gloves, parachute and inflatable life preserver These space suits were designed only for emergency use Evolution of the Spacesuit Latest space suit used on the Space Shuttle
The Extravehicular Mobility Unit (EMU) is used for space walking from the shuttle and the space station The EMU has 13 layers of material including an inner cooling garment, pressure garment, thermal micrometeoroid garment, and an outer cover The materials used are nylon tricot, Spandex, urethane-coated nylon, Dacron, neoprene-coated nylon, Mylar, Gortex, Kevlar, and Nomex Evolution of the Spacesuit The Extravehicular Mobility Unit
The EMU consists of: Gloves, helmet, torso assembly Liquid Cooling and Ventilation garment (to remove excess body heat) Communications Carrier Assembly (microphones and earphones) Extravehicular Visor assembly (to protect from sunlight) In-suit drink bag Urine collection bag Primary Life Support Subsystem (provides oxygen, removal of carbon dioxide, power, cooling water, radio equipment, and warning system) Evolution of the Spacesuit
Evolution of the Spacesuit The spacesuit, including life support system, weighs about 310 pounds. If an astronaut weighing 175 pounds wears the complete suit, the total weight would be 495 pounds!
To help the astronauts move around freely while performing a spacewalk, a manned maneuvering unit (MMU) was attached to the EMU The MMU was a nitrogen propelled backpack that allows the astronaut to fly with precision The MMU was used 9 times on 3 Space Shuttle missions in 1984 Evolution of the Spacesuit Astronaut Bruce McCandless made the first untethered spacewalk in February 1984 (photo by NASA)
Over 150 spacewalks (EVA’s) have been needed for construction of the International Space Station Tethers, safety grips and the robot arm are used for spacewalks now, but what happens if a problem occurs and the astronaut begins to float away into the void of space? Evolution of the Spacesuit Spacewalk using the robotic arm (NASA)
NASA has a device called Simplified Aid For EVA Rescue (SAFER) It is a self-contained maneuvering unit worn by astronauts that relies on small nitrogen-jet thrusters with limited amount of propellant to let them move around in space It is to be used in emergencies only and so far has never been needed Evolution of the Spacesuit SAFER is worn like a backpack
Apollo moonwalkers worked in space suits that limited a person’s flexibility to perform tasks These spacesuits cocooned an astronaut in a bubble of pressurized air and weighed more than 100 pounds Future Spacesuits Jack Schmitt from Apollo 17 mission Is shown on the Moon in 1972
A trip to Mars will require more thought than a trip to the space station Unlike Earth, Mars does not have a magnetosphere to protect astronauts from radiation and micrometeors You would also be exposed to sand storms and a hyper-cold environment The space suit would also need to be light enough to move around and explore in Martian gravity Future Spacesuits
Future space explorers on the Moon and Mars could be outfitted in lightweight, high-tech spacesuits that offer far more flexibility than the bulky suits that have been used since the 1960’s Future Spacesuits Artwork by Cam Brensiger
Research is underway at MIT on a Bio-Suit system designed for travel to Mars It looks like a spandex leotard made out of a stretchy, skin-like polymer that encases the body in a flexible shrink-wrap that prevents the wearer from exploding in the vacuum of space Future Spacesuits Artist’s image of the Bio-Suit
The Bio-Suit is not only much lighter than conventional spacesuits but it can be outfitted with chemical sensors, wearable computers, and thermal threads for controlling body temperature Future Spacesuits Artwork by Cam Brensiger
NASA is developing “hard suits” that are more flexible, more durable, lighter weight, and easier to put on than current space suits Future Spacesuits The AX-5 Hard Suit being developed by NASA
Space suits on the shuttle are designed to work in a vacuum. The shuttle suits would weigh about 19 kg (42 lbs) on the Moon and 43 kg (95 lbs) on Mars Lighter EMU suits will be needed to prevent the astronauts from becoming exhausted during long periods of surface exploration Future Spacesuits The Mark III Hard Suit being developed by NASA
What would a future spacesuit look like?