PPT SPS CH 1 Introduction to Space Probes and Satellites.pdf

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Introduction to Space
Probes and Satellites
Chapter 1

SPS
Space Probes and Satellites

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DEPARTMENT OF AEROSPACE ENGINEERING
LEARNING OBJECTIVE
To learn WHAT are Satellites.

To learn WHAT are Space Probes.

To EXPLORE the Types of Satellites and Space Probes.

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DEPARTMENT OF AEROSPACE ENGINEERING 2
COURSE CONTENTS
Satellites
Space Probes

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 Satellites

SPS
Space Probes and Satellites

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 Satellites
A satellite is an object that revolves around a larger object in
space due to gravitational forces.

This term commonly refers to artificial satellites, which are man-
made objects intentionally placed into orbit around Earth or other
celestial bodies for specific purposes, such as communication,
weather monitoring, navigation, and scientific research.

Natural satellites, like moons, occur naturally and orbit planets.
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Origin of the Satellite
The idea of a satellite traces back
to early astronomical observations
of moons orbiting planets,
particularly by Galileo Galilei in
1610, who discovered the four
largest moons of Jupiter.

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Origin of the Satellite
The concept of an artificial
satellite, however, was first
theoretically discussed by Sir
Isaac Newton in his 1687 work
Principia Mathematica, where he
described an object launched at a
sufficient velocity that would
continue to orbit Earth instead of
falling back to it.

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Origin of the Satellite
The first artificial satellite, Sputnik
1, was successfully launched by
the Soviet Union on October 4,
1957, marking the dawn of the
space age.

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 Natural Satellites Artificial Satellites

Natural Satellites are celestial Artificial Satellites are human-
bodies that naturally orbit a planet made objects launched into orbit
or another larger object. using rockets.
They are formed through various They are designed for specific
processes such as the gravitational tasks, such as transmitting
capture of smaller bodies, accretion signals, collecting scientific data,
from the planet’s own material, or or providing navigation services.
through collisions. Unlike natural satellites, artificial
These satellites follow their orbits satellites are controlled and
due to the gravitational pull of the monitored by ground stations.
object they orbit.

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 Types of Natural Satellites
1. Regular Satellites
2. Irregular Satellites
3. Major Satellites
4. Minor Satellites
5. Trojan Satellites
6. Co-orbital Satellites

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Regular Satellite
Regular satellites are natural satellites
that have prograde orbits and are
typically found close to their parent
planet in nearly circular and equatorial
orbits.

These satellites are believed to have
formed from the same material as their
parent planet or because of the planet's
formation process.

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Examples of Regular Satellites
The Moon (Earth’s Moon): The only
natural satellite of Earth, it is a regular
satellite that orbits our planet in a nearly
circular, prograde orbit.

Ganymede (Jupiter's Moon): The
largest moon in the solar system,
Ganymede orbits Jupiter in a regular,
prograde, and nearly circular orbit.

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Irregular Satellite
Irregular satellites are natural satellites
with highly eccentric (elliptical), inclined,
and often retrograde orbits.

These satellites are believed to have
been captured by the planet’s gravity
rather than forming in place. They are
usually farther from the planet and have
more varied orbital paths.

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Examples of Irregular Satellites
Phoebe (Saturn's Moon): An irregular
satellite of Saturn, Phoebe has a highly
inclined and retrograde orbit,
suggesting it was captured by Saturn’s
gravity.

Triton (Neptune's Moon): Triton is an
irregular satellite with a retrograde orbit,
indicating it was likely captured by
Neptune rather than forming in orbit
around the planet.
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Major Satellite
Major satellites are the largest natural
satellites of a planet, often spherical in
shape due to their own gravity.

They are typically regular satellites and
are significant in size compared to their
parent planet.

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Examples of Major Satellites
Titan (Saturn's Moon): Titan is the
largest moon of Saturn and the second-
largest natural satellite in the solar
system. It has a thick atmosphere and
orbits Saturn in a nearly circular,
prograde orbit.

Europa (Jupiter's Moon): One of the
four largest moons of Jupiter (the
Galilean moons), Europa is known for
its smooth, icy surface and potential
subsurface ocean.

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Minor Satellite
Minor satellites are smaller natural
satellites that can be either regular or
irregular.

They typically have less mass and are
often not spherical, showing irregular
shapes due to insufficient gravity to
mold them into a spherical form.

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Examples of Minor Satellites
Deimos (Mars’ Moon): Deimos is a
small, irregularly shaped moon of Mars,
believed to be a captured asteroid.

Phobos (Mars’ Moon): Another minor
satellite of Mars, Phobos is slightly
larger than Deimos but also has an
irregular shape and is thought to be a
captured asteroid.

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Trojan Satellite
Trojan satellites are a special category
of natural satellites that share an orbit
with a larger body (like a planet or
moon) but are located at stable
Lagrange points (L4 and L5), leading or
trailing the larger body by 60 degrees in
its orbit.

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Lagrange Points
Lagrange Points are positions in space
where the gravitational forces of a two-
body system like the Sun and Earth
produce enhanced regions of attraction
and repulsion.

These can be used by spacecraft as
"parking spots" in space to remain in a
fixed position with minimal fuel
consumption.

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The Five Lagrange Points
The L1 point is perhaps the most
immediately significant of the Lagrangian
points, which were discovered by
mathematician Joseph Louis Lagrange. It
lies 1.5 million kilometers inside the Earth’s
orbit, partway between the Sun and the
Earth.
L1 is ideal for solar observation missions
because a spacecraft at this point can
continuously monitor the Sun without any
interruptions from Earth. It's also useful for
monitoring the solar wind and space
weather.

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The Five Lagrange Points
L2 is located 1.5 million kilometers directly
'behind' the Earth as viewed from the Sun.
It is about four times further away from the
Earth than the Moon ever gets and orbits
the Sun at the same rate as the Earth.
L2 is an excellent location for space
telescopes and other deep-space
observation missions. A spacecraft here
can avoid interference from Earth, enjoy a
stable temperature environment, and have
an unobstructed view of the universe.

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The Five Lagrange Points
L3 lies behind the Sun, opposite Earth,
just beyond our planet’s orbit. Objects
in L3 cannot be seen from Earth. It
offers the potential to observe the far
side of the Sun.
L3 is not typically used for space
missions because it is hidden behind
the Sun from Earth's perspective,
making communication difficult.

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The Five Lagrange Points
L4 forms an equilateral triangle with the
two large bodies and is located 60
degrees ahead of the smaller body in
its orbit around the larger body. For
example, in the Earth-Sun system, L4
is 60 degrees ahead of Earth in its orbit.
L4 can host "Trojan" objects, such as
asteroids or potential spacecraft, which
can remain in this stable position. It’s a
potential location for future space
colonies or observational platforms.

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The Five Lagrange Points
L5 also forms an equilateral triangle
with the two large bodies but is located
60 degrees behind the smaller body in
its orbit around the larger body.
L5 is a potential location for space
colonies or as a "parking" area for
spacecraft.
L4 and L5 are resistant to gravitational
perturbations. Because of this stability,
objects such as dust and asteroids tend
to accumulate in these regions.
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Examples of Trojan Satellites
Helene (Saturn’s Moon): A Trojan
moon of Saturn, Helene shares its orbit
with the larger moon Dione, located at
Dione’s leading Lagrange point (L4).

Eurybates (Jupiter’s Trojan):
Eurybates is a Trojan asteroid that
shares its orbit with Jupiter, located at
one of the Lagrange points, making it a
natural satellite of sorts.

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Co-Orbital Satellite
Co-orbital satellites are two or more
natural satellites that share the same or
very similar orbits around a planet.

They can either maintain a stable
relationship where they do not collide or
have periodic close encounters.

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Example of Co-Orbital Satellites
Janus and Epimetheus (Saturn’s
Moons): These two moons of Saturn
share almost the same orbit and
periodically swap positions, a unique
orbital configuration known as co-orbital
or horseshoe orbit.

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 Types of Artificial Satellites
1. Communication Satellites
2. Weather Satellites
3. Navigation Satellites
4. Earth Observation Satellites
5. Reconnaissance Satellites
6. Scientific Research Satellites
7. Space Station
8. Experimental Satellites
9. Geostationary Satellites
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Communication Satellite
Communication satellites are designed
to relay and amplify communication
signals between different locations on
Earth.

They facilitate long-distance telephone
calls, television broadcasts, internet
services, and military communications.

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Examples of Communication Satellites
INTELSAT Series: A series of
communication satellites used for
international telecommunications.

EchoStar: Provides satellite television
services.

Inmarsat: Used for global mobile
communications, especially for ships
and airplanes.

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Weather Satellite
Weather satellites monitor Earth's
atmosphere and surface to collect data
on weather patterns, climate conditions,
and environmental changes.

They are crucial for weather forecasting
and monitoring natural disasters like
hurricanes and typhoons.

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Examples of Weather Satellites
GOES (Geostationary Operational
Environmental Satellite): Monitors
weather conditions and provides real-
time data for forecasting.
NOAA (National Oceanic and
Atmospheric Administration)
Satellites: Used for weather
observation and environmental
monitoring.
Meteosat: Operated by EUMETSAT, it
provides weather information for
Europe and Africa.

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Navigation Satellite
Navigation satellites provide precise
location data to enable navigation for
vehicles, ships, airplanes, and even
smartphones.

These satellites form part of global
navigation satellite systems (GNSS).

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Examples of Navigation Satellites
GPS (Global Positioning System): A
U.S.-operated satellite system used
globally for navigation.

GLONASS (Global Navigation
Satellite System): The Russian
counterpart to GPS.

Galileo: The European Union’s satellite
navigation system.

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Earth Observation Satellite
Earth observation satellites are
designed to monitor and collect data
about Earth's physical, chemical, and
biological systems.

They are used for environmental
monitoring, agriculture, urban planning,
and disaster management.

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Examples of Earth Observation Satellites
Landsat: Used for land surface
monitoring, providing data on
agriculture, forestry, and land use.
Sentinel Satellites (Copernicus
Programme): Monitor Earth’s land,
ocean, and atmosphere, aiding in
environmental management and
emergency response.
Terra: A NASA satellite that monitors
Earth’s climate and environmental
conditions.
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Reconnaissance Satellite
Reconnaissance satellites, also known
as spy satellites, are used primarily for
military or intelligence purposes.

They collect images and other data to
monitor military activities, track missile
launches and gather intelligence.

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Examples of Reconnaissance Satellites
KH (Keyhole) Series: A series of
reconnaissance satellites used by the
U.S. for intelligence gathering.

Lacrosse: A radar imaging
reconnaissance satellite used by the
U.S. for all-weather surveillance.

Helios: A French military
reconnaissance satellite system.

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Scientific Research Satellite
Scientific research satellites are
designed for research and exploration.

They study space, the solar system,
and beyond, as well as Earth's
atmosphere, magnetosphere, and
oceans. They are also used to observe
distant planets, stars, galaxies, and
other celestial bodies.

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Examples of Scientific Research Satellites
Hubble Space Telescope: A space
telescope that has provided stunning
images of distant galaxies, nebulae,
and other celestial objects.
James Webb Space Telescope:
Focused on observing the universe’s
earliest galaxies and other astronomical
phenomena.
Chandra X-ray Observatory:
Observes X-ray emissions from high-
energy regions of the universe, such as
black holes.

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Space Station
A space station is a large artificial
satellite designed for humans to live
and work in space for extended
periods.

It supports scientific research,
technology development, and
international collaboration.

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Examples of Space Stations
International Space Station (ISS): A
habitable satellite that serves as a
microgravity and space environment
research laboratory.

Tiangong Space Station: China's
space station, used for scientific
research and space exploration.

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Experimental Satellite
Experimental satellites are designed to
test new technologies, concepts, and
systems in space.

These satellites often pave the way for
future missions by validating new
instruments and designs.

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Examples of Experimental Satellites
CubeSats: Small satellites used for
educational purposes and technology
demonstrations.

X-37B: A reusable spaceplane that
tests new spacecraft systems and
materials in space.

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Geostationary Satellite
Geostationary satellites orbit Earth at
the same rotational speed as the
planet, remaining fixed over a single
point on the equator.

They are commonly used for
communication, weather observation,
and broadcasting.

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Examples of Geostationary Satellites
SES Astra: Provides satellite television
and radio to Europe.

GOES (Geostationary Operational
Environmental Satellite): Used for
weather monitoring and forecasting.

Himawari: A Japanese geostationary
weather satellite used for
meteorological observation.

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 Space Probes

SPS
Space Probes and Satellites

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 Space Probes
A space probe is an unmanned spacecraft that is sent into space to
gather data about various celestial bodies, such as planets, moons,
asteroids, comets, and the interstellar medium.

Unlike satellites, which orbit planets or other objects, space probes are
designed for exploration missions, often traveling far beyond Earth’s
orbit to study distant objects in the solar system and beyond.

They transmit data back to Earth for analysis, providing valuable
insights into the universe.
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Origin of the Space Probe
The concept of a space probe
began with the exploration of
space using unmanned
spacecraft. The first successful
space probe was the Soviet
Union's Luna 1, launched on
January 2, 1959.

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Origin of the Space Probe
Although it was intended to impact
the Moon, it became the first
spacecraft to reach the vicinity of
the Moon and enter a heliocentric
orbit (orbiting the Sun).

This mission marked the beginning
of human exploration of the solar
system using space probes.

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 Types of Space Probes
1. Flyby Probes
2. Orbiter Probes
3. Lander Probes
4. Rover Probes
5. Penetrator Probes
6. Atmospheric Probes
7. Relay Probes

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Flyby Probes
Flyby probes are designed to pass
close to a celestial body, collect data
during the brief encounter, and then
continue their trajectory through space.

They are not intended to enter orbit or
land but are often used for initial
reconnaissance of distant planets and
moons.

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Examples of Flyby Probes
Voyager 1 and 2: Launched in 1977,
these probes performed flybys of the outer
planets, including Jupiter, Saturn, Uranus,
and Neptune, providing some of the first
close-up images of these planets and their
moons. Voyager 1 is now in interstellar
space, making it the farthest human-made
object from Earth.
New Horizons: Launched in 2006, New
Horizons flew by Pluto in 2015, providing
the first detailed images and data on the
dwarf planet. It has since continued its
journey into the Kuiper Belt.

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Orbiter Probes
Orbiter probes are designed to enter
and remain in orbit around a celestial
body, continuously collecting data over
an extended period.

These probes provide detailed
information about the body’s
atmosphere, surface, and gravitational
field.

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Examples of Orbiter Probes
Mars Reconnaissance Orbiter (MRO):
Launched by NASA in 2005, MRO has
been orbiting Mars, capturing high-
resolution images of the planet’s surface
and studying its atmosphere and climate.
Juno: Launched in 2011, Juno is orbiting
Jupiter, studying the planet's atmosphere,
magnetic field, and auroras, and providing
insight into its composition and evolution.
Venus Express: Operated by the
European Space Agency (ESA) from 2006
to 2014, this probe orbited Venus, studying
its atmosphere and surface conditions.

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Lander Probes
Lander probes are designed to descend
to the surface of a celestial body,
conduct experiments, and transmit data
back to Earth.

They often carry instruments for
analyzing soil, rocks, and atmospheric
conditions.

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Examples of Lander Probes
Viking 1 and 2: These NASA missions
were the first successful landers on Mars,
launched in 1975. They conducted
experiments to search for signs of life and
study the Martian surface and atmosphere.
InSight: Launched in 2018, InSight is a
NASA lander that is currently studying the
interior of Mars, measuring its seismic
activity, heat flow, and planetary rotation.
Philae: A lander that was part of the ESA's
Rosetta mission, Philae successfully
landed on comet 67P/Churyumov–
Gerasimenko in 2014, providing the first
close-up study of a comet's surface.
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Rover Probes
Rover probes are mobile landers
equipped with wheels or tracks,
allowing them to traverse the surface of
a celestial body.

Rovers are designed to explore a larger
area than stationary landers,
performing experiments, and capturing
images over a wide range of terrain.

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Examples of Rover Probes
Curiosity: A NASA rover that landed on
Mars in 2012, Curiosity has been exploring
the Gale Crater, analyzing soil, rocks, and
the atmosphere to assess Mars's
habitability.
Perseverance: Launched in 2020,
Perseverance is a NASA rover designed to
search for signs of past life on Mars,
collect rock and soil samples, and test new
technologies for future human exploration.
Yutu ("Jade Rabbit"): A Chinese lunar
rover that was part of the Chang'e 3
mission. It explored the Moon's surface,
conducting geological studies and sending
images back to Earth.

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Penetrator Probes
Penetrator probes are designed to
impact the surface of a celestial body at
high speed, burrowing beneath the
surface to gather data about the
subsurface environment.

They can analyze soil, ice, and other
materials below the surface layer.

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Examples of Penetrator Probes
Deep Impact: A NASA mission that
sent a probe to impact comet Tempel 1
in 2005, creating a crater and allowing
the study of the comet's interior
composition.

Lunar Prospector: While primarily an
orbiter, this NASA mission ended by
deliberately crashing into a lunar crater
to search for signs of water ice on the
Moon.
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Atmospheric Probes
Atmospheric probes are designed to
enter and analyze the atmosphere of a
planet or moon.

They typically measure temperature,
pressure, composition, and other
atmospheric properties during their
descent.

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Examples of Atmospheric Probes
Galileo Atmospheric Probe: Part of
NASA's Galileo mission, this probe
entered Jupiter's atmosphere in 1995,
providing valuable data on its composition,
temperature, and pressure.
Huygens Probe: A European Space
Agency (ESA) probe that was part of the
Cassini mission, Huygens landed on
Saturn’s moon Titan in 2005, analyzing its
dense atmosphere and surface conditions.
Venus In Situ Explorer (VISU): A
proposed NASA mission to study the
atmosphere of Venus in detail, including its
extreme temperatures and pressure.

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Relay Probes
Relay probes are designed to facilitate
communication between other
spacecraft (such as landers or rovers)
and Earth.

They often orbit a celestial body and act
as communication relays, ensuring
continuous contact with mission control.

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Examples of Relay Probes
Mars Odyssey: An orbiter around Mars
that serves as a relay for
communication between Earth and
surface missions like the Curiosity and
Perseverance rovers.
Luna 10: The first artificial satellite of
the Moon, which also relayed
communications for the Soviet Luna
program.
Lunar Reconnaissance Orbiter
(LRO): While primarily a mapping
mission, LRO also serves as a relay for
lunar lander missions.
AIR LINK INTERNATIONAL AVIATION COLLEGE
DEPARTMENT OF AEROSPACE ENGINEERING Introduction to Space Probes and Satellites │ 66
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PREPARED BY:
Engr. Ivan Lance B. Casupang

0969 158 9477

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