How high do space shuttles orbit?
Space and Astronomy190 miles to 330 miles190 miles to 330 miles (304 kilometers to 528 kilometers) above sea level, depending on its mission.
How high of an orbit could the space shuttle go?
The Shuttle is designed to reach orbits ranging from about 185 kilometers to 643 kilometers (115 statute miles to 400 statute miles) high. The Shuttle has the most reliable launch record of any rocket now in operation. Since 1981, it has boosted more than 1.36 million kilograms (3 million pounds) of cargo into orbit.
What was the highest shuttle orbit?
To launch HST into an orbit that guaranteed longevity, Discovery entered an orbit of around 613 × 615 km (381 × 382 mi). At one point during the mission, Discovery briefly reached an apogee of 621 km (386 mi), the highest altitude ever reached by a Shuttle orbiter.
How high is the space station orbiting?
227 nautical miles
The space station orbits Earth at an average altitude of 227 nautical miles/420 kilometers above Earth.
How fast does a space shuttle go to leave Earth?
7 miles per second
For example, a spacecraft leaving the surface of Earth needs to be going 7 miles per second, or nearly 25,000 miles per hour to leave without falling back to the surface or falling into orbit.
Could the space shuttle have gone to the moon?
Can the Space Shuttle fly to the Moon? A. No, the Space Shuttle is designed to travel in low-Earth orbit (within a few hundred miles of the Earth’s surface). It does not carry enough propellant to leave Earth’s orbit and travel to the Moon.
Did they ever find Challenger bodies?
In March 1986, the remains of the astronauts were found in the debris of the crew cabin. Though all of the important pieces of the shuttle were retrieved by the time NASA closed its Challenger investigation in 1986, most of the spacecraft remained in the Atlantic Ocean.
Who owns the Moon?
The short answer is that no one owns the Moon. That’s because of a piece of international law. The Outer Space Treaty of 1967, put forward by the United Nations, says that space belongs to no one country.
Where did Kalpana Chawla go for her masters degree?
The University of Texas at Arlington, where Chawla obtained a Master of Science degree in aerospace engineering in 1984, opened a dormitory named Kalpana Chawla Hall in 2004.
How was NASA Honoured Kalpana?
AWARDS: Posthumously awarded the Congressional Space Medal of Honor, the NASA Space Flight Medal, and the NASA Distinguished Service Medal. EXPERIENCE: In 1988, Kalpana Chawla started work at NASA Ames Research Center in the area of powered-lift computational fluid dynamics.
How successfully has Kalpana Chawla’s chased her dream?
Question 1.
How successfully has Kalpana Chawla’s chased her dream? Answer: Kalpana Chawla’s followed her dream. Her great achievement was that she was selected to go into space. Her achievement was awe-inspiring.
In which field Kalpana did her bachelors?
aeronautical engineering
Kalpana Chawla received a bachelor of science degree in aeronautical engineering from Punjab Engineering College, India, a master of science degree in aerospace engineering from the University of Texas, and a Ph. D.
Why was Kalpana called Indian?
Kalpana Chawla was born in Karnal, Haryana. She was called an Indian-American because she went to the US and became its naturalized citizen. She got American citizenship after marrying the American flight instructor, Jean-Pierre Harrison. Thus, we refer to her as an Indian-American.
What did Kalpana Chawla do?
Kalpana Chawla was the first Indian-born woman and the second Indian person to fly in space, following cosmonaut Rakesh Sharma who flew in 1984 in a spacecraft. On her first mission, Chawla traveled over 10.4 million miles in 252 orbits of the earth, logging more than 372 hours in space.
What was Kalpana Chawla’s dream?
dream of landing on the moon
Kalpana always had a dream of landing on the moon. And as a result of her hard work and dedication, she reached such heights. Kalpana’s first space mission was on November 19, 1994. She was a part of 6 member crew on space shuttle Columbia Flight STS-87.
What animal went to space first?
dog Laika
The first animal to make an orbital spaceflight around the Earth was the dog Laika, aboard the Soviet spacecraft Sputnik 2 on 3 November 1957.
Did Kalpana Chawla have any child?
Kalpana Chawla (Astronaut) Age, Biography, Husband, Facts & More
Bio | |
---|---|
Affairs/Boyfriends | Jean-Pierre Harrison |
Husband/Spouse | Jean-Pierre Harrison (flying instructor and an aviation author) |
Marriage Date | Year- 1983 |
Children | Son- N/A Daughter- N/A |
What are the hobbies of Kalpana Chawla?
Kalpana Chawla enjoyed flying, hiking, back-packing, and reading. She held a Certificated Flight Instructor’s license with airplane and glider ratings, Commercial Pilot’s licenses for single- and multi-engine land and seaplanes, and Gliders, and instrument rating for airplanes.
What does NASA do besides space?
NASA makes satellites. The satellites help scientists learn more about Earth. NASA sends probes into space. NASA scientists study things in the solar system and even farther away.
How many times did Kalpana Chawla go to space answer?
Answer: She flew on STS-87 (1997) and STS-107 (2003) and has logged 30 days, 14 hours and 54 minutes in space.
What was Kalpana called by her family?
Answer : Kalpana was called ‘Montu‘ by her family.
Categories
- "><Span Class="MathJax" Id="MathJax Element 1 Frame" Tabindex="0" Data Mathml="<Math Xmlns=&Quot
- "><Span Class="MathJax" Id="MathJax Element 2 Frame" Tabindex="0" Data Mathml="<Math Xmlns=&Quot
- "><Span Class="MathJax" Id="MathJax Element 3 Frame" Tabindex="0" Data Mathml="<Math Xmlns=&Quot
- "><Span Class="MathJax" Id="MathJax Element 7 Frame" Tabindex="0" Data Mathml="<Math Xmlns=&Quot
- Aerosol
- After Shock
- Age
- Agriculture
- Air
- Air Currents
- Air Pollution
- Air Quality
- Altitude
- Antarctica
- Anthropogenic
- Archaeology
- Arctic
- Asteroids
- Astrobiology
- Atmosphere
- Atmosphere Modelling
- Atmospheric Chemistry
- Atmospheric Circulation
- Atmospheric Dust
- Atmospheric Optics
- Atmospheric Radiation
- Auroras
- Barometric Pressure
- Bathymetry
- Bedrock
- Biogeochemistry
- Biomass
- Biomineralization
- California
- Carbon
- Carbon Capture
- Carbon Cycle
- Cartography
- Cavern
- Cf Metadata
- Chaos
- Climate
- Climate Change
- Climate Data
- Climate Models
- Climatology
- Cloud Microphysics
- Clouds
- Co2
- Coal
- Coastal
- Coastal Desert
- Condensation
- Continent
- Continental Crust
- Continental Rifting
- Convection
- Coordinate System
- Core
- Coriolis
- Correlation
- Crust
- Cryosphere
- Crystallography
- Crystals
- Cyclone
- Dams
- Data Analysis
- Database
- Dating
- Decomposition
- Deforestation
- Desert
- Desertification
- Diamond
- Drilling
- Drought
- Dynamics
- Earth History
- Earth History
- Earth Moon
- Earth Observation
- Earth Rotation
- Earth science
- Earth System
- Earthquakes
- East Africa Rift
- Ecology
- Economic Geology
- Education
- Electromagnetism
- Emissions
- Emissivity Of Water
- Energy
- Energy Balance
- Enso
- Environmental Protection
- Environmental Sensors
- Equator
- Era
- Erosion
- Estuary
- Evaporation
- Evapotranspiration
- Evolution
- Extreme Weather
- Field Measurements
- Fire
- Flooding
- Fluid Dynamics
- Forest
- Fossil Fuel
- Fossils
- Gas
- Geobiology
- Geochemistry
- Geochronology
- Geode
- Geodesy
- Geodynamics
- Geoengineering
- Geographic Information Systems
- Geography
- Geologic Layers
- Geology
- Geology and Geography
- Geology questions
- Geometry
- Geomorphology
- Geomythology
- Geophysics
- Geospatial
- Geothermal Heat
- Gfs
- Glaciation
- Glaciology
- Global Weirding
- Gps
- Gravity
- Greenhouse Gases
- Greenland
- Grid Spacing
- Groundwater
- Hazardous
- History
- History Of Science
- Horizon
- Human Influence
- Humidity
- Hydrocarbons
- Hydrogeology
- Hydrology
- Hypothetical
- Ice
- Ice Age
- Ice Sheets
- Identification Request
- Identify This Object
- Igneous
- Impact Craters
- Impacts
- In Situ Measurements
- Insolation
- Instrumentation
- Interpolation
- Into Account The Actual Heat From Human Combustion Processes?
- Inversion
- Ionizing Radiation
- Iron
- Islands
- Isostasy
- Isotopic
- Japan
- Jet Stream
- Lakes
- Land
- Land Surface
- Land Surface Models
- Light
- Lightning
- Literature Request
- Lithosphere
- Long Coordinates
- Machine Learning
- Magma Plumes
- Magmatism
- Magnetosphere
- Mapping
- Mars
- Mass Extinction
- Mathematics
- Matlab
- Measurements
- Mediterranean
- Mesoscale Meteorology
- Mesozoic
- Metamorphism
- Meteorology
- Methane
- Milankovitch Cycles
- Mineralogy
- Minerals
- Mining
- Models
- Moon
- Mountain Building
- Mountains
- Netcdf
- Nitrogen
- Numerical Modelling
- Nutrient Cycles
- Ocean Currents
- Ocean Models
- Oceanic Crust
- Oceanography
- Oil Accumulation?
- Oil Reserves
- Open Data
- Ore
- Orogeny
- Other Organic Matter Improve Soil Structure?
- Oxygen
- Ozone
- Pacific
- Paleobotany
- Paleoclimate
- Paleoclimatology
- Paleogeography
- Paleontology
- Particulates
- Perfume and Fragrance
- Petrography
- Petroleum
- Petrology
- Planetary Boundary Layer
- Planetary Formation
- Planetary Science
- Plant
- Plate Tectonics
- Pm2.5
- Poles
- Pollution
- Precipitation
- Predictability
- Pressure
- Programming
- Projection
- Purpose Of 2 Wooden Poles With A Net Around It In A Farm?
- Pyroclastic Flows
- Python
- R
- Radar
- Radiation Balance
- Radiative Transfer
- Radioactivity
- Radiosounding
- Rain
- Rainfall
- Rainforest
- Rare Earth
- Reanalysis
- Reference Request
- Regional Geology
- Remote Sensing
- Research
- Resources
- Rivers
- RMM2?
- Rock Magnetism
- Rocks
- Runoff
- Salinity
- Satellite Oddities
- Satellites
- Science Fair Project
- Sea Floor
- Sea Ice
- Sea Level
- Seasons
- Sedimentology
- Seismic
- Seismology
- Severe Weather
- Simulation
- Snow
- Software
- Soil
- Soil Moisture
- Soil Science
- Solar Terrestrial Physics
- Solitary Waves
- Space and Astronomy
- Spectral Analysis
- Statistics
- Stratigraphy
- Stratosphere
- Structural Geology
- Subduction
- Sun
- Taphonomy
- Technology
- Tectonics
- Temperature
- Terminology
- Thermodynamics
- Thunderstorm
- Tibetan Plateau
- Tides
- Time
- Topography
- Tornado
- Transform Fault
- Tropical Cyclone
- Troposphere
- Tsunami
- Turbulence
- Uncategorized
- Underground Water
- United States
- Upper Atmosphere
- Uranium
- Urban Climate
- Uv Light
- Validation
- Vegetation
- Vein R Package
- Visualization
- Volcanic Eruption
- Volcanology
- Water
- Water Level Being Exceeded
- Water Table
- Water Vapour
- Watershed
- Wave Modeling
- Waves
- Weather Forecasting
- Weather Satellites
- Weatherdata
- Weathering
- Wildfire
- Wind
- Winter
- Wrf Chem
Recent
- Unveiling the Pressure Gradient’s Influence on Dual Cyclones: Exploring the Fujiwhara Effect in Earth Science
- The Vital Shield: Unraveling the Significance of the Ozone Layer in Shielding the Stratosphere from Harmful UV Rays
- Unraveling the Dynamics: Estimating Atmospheric Particulate Settling Time based on Aerodynamic Size
- Chilling Possibilities: Exploring the Potential Impact of an Icy Celestial Visitor on Earth’s Climate
- Unveiling the Nocturnal Mystery: Exploring Geothermal Heat’s Influence on Nighttime Warmth
- Unveiling the Unstoppable: Unraveling the Dynamic Retreat of Greenland’s Glaciers
- The Enigmatic Phenomenon of Midsummer Frost: Unraveling the Climate Mystery of 536
- The Phenomenon of Major Lunar Standstill: Unleashing the Power of Extraordinary Tides
- Decoding Precipitation Patterns: Unveiling the Climate Classification for a Specific Region
- Unraveling the Tropospheric Mystery: Analyzing the Contradiction Between Potential Temperature and Adiabatic Processes in Earth’s Atmosphere
- Decoding Negative Actual Evapotranspiration: Unraveling the Enigma of Water Vapor Loss in Earth Science
- Unveiling the Link: Converting Dip Direction to Strike Direction in Earth Science’s Coordinate System
- Univariate Data Analysis: Exploring Algorithms and Processing Methods for Single-Source Earth Science Data
- Unveiling the Mysteries of Megaspherulite Growth: Unraveling the Earth’s Rock Formation Secrets