KENDRIYA VIDYALAYA SANGATHAN
CHENNAI REGION
SUMMATIVE ASSESSMENT II
SESSION 2015
STD VIII SCIENCE OTBA THEME I
MARKS 10
TIME 30 min
UNDERSTANDING THE ENVIRONMENT OF MARS
Read the text and answer the question
Mosaic image of Mars as seen
by Viking 1, February 22, 1980
The climate of Mars has been an issue of scientific curiosity for centuries, not least
because Mars is the only terrestrial planet whose surface can be directly observed in detail
from the Earth with help from a telescope.
Although Mars is smaller at 11% of Earth's mass and 50% farther from the Sunthan the
Earth, its climate has important similarities, such as the polar ice caps,seasonal changes
and the observable presence of weather patterns. It has attracted sustained study
from planetologists and climatologists. Although Mars's climate has similarities to Earth's,
including seasons and periodic ice ages, there are also important differences such as the
absence of liquid water (though frozen water exists) and much lower thermal inertia. Mars'
atmosphere has a scale height of approximately 11 km (36,000 ft), 60% greater than that
on Earth. The climate is of considerable relevance to the question of whether life is or was
present on the planet. The climate briefly received more interest in the news due to NASA
measurements indicating increased sublimation of the south polar icecap leading to some
popular press speculation that Mars was undergoing a parallel bout of global
warming, though global average temperature has actually cooled in recent decades.
Mars has been studied by Earth-based instruments since as early as the 17th century but
it is only since the exploration of Mars began in the mid-1960s that close-range observation
has been possible. Flyby and orbital spacecraft have provided data from above, while direct
measurements of atmospheric conditions have been provided by a number of landers and
rovers. Advanced Earth orbital instruments today continue to provide some useful "big
picture" observations of relatively large weather phenomena.
The first Martian flyby mission was Mariner 4 which arrived in 1965. That quick two day
pass (July 14–15, 1965) was limited and crude in terms of its contribution to the state of
knowledge of Martian climate. Later Mariner missions (Mariner 6, andMariner 7) filled in
some of the gaps in basic climate information. Data based climate studies started in earnest
with theViking program in 1975 and continues with such probes as the Mars
Reconnaissance Orbiter.
This observational work has been complemented by a type of scientific computer simulation
called the Mars General Circulation Model. Several different iterations of MGCM have led to
an increased understanding of Mars as well as the limits of such models. Models are limited
in their ability to represent atmospheric physics that occurs at a smaller scale than their
resolution. They also may be based on inaccurate or unrealistic assumptions about how
Mars works and certainly suffer from the quality and limited density in time and space of
climate data from Mars.
Weather
Martian
Morning Clouds - Viking Orbiter 1 (February 12, 2014).
Mars' temperature and circulation vary from year to year (as
expected for any planet with an atmosphere). Mars lacks
oceans, a source of much inter-annual variation on
Earth. Mars Orbiter Camera data beginning in March 1999
and covering 2.5 Martian years[12] show that Martian
weather tends to be more repeatable and hence more
predictable than that of Earth. If an event occurs at a
particular time of year in one year, the available data
(sparse as it is) indicate that it is fairly likely to repeat the
next year at nearly the same location give or take a week.
On September 29, 2008, the Phoenix lander took pictures of
snow falling from clouds 4.5 km above its landing site near Heimdall crater. The
precipitation vaporized before reaching the ground, a phenomenon called virga.
Temperature
Martian temperatures have been measured by various means:
Measurements of Martian temperature predate the "Space Age." However, early
instrumentation and techniques of radio astronomy produced crude, differing results.
Differing in situ values have been reported for the average temperature on Mars with a
common value being −55 °C (218 K; −67 °F). Surface temperatures may reach a high of
about 20 °C (293 K; 68 °F) at noon, at the equator, and a low of about −153 °C (120 K;
−243 °F) at the poles. Actual temperature measurements at the Viking landers' site range
from −17.2 °C (256.0 K; 1.0 °F) to −107 °C (166 K; −161 °F). The warmest soil temperature
on the Mars surface estimated by the Viking Orbiter was 27 °C (300 K; 81 °F). The Spirit
rover recorded a maximum daytime air temperature in the shade of 35 °C (308 K; 95 °F),
and regularly recorded temperatures well above 0 °C (273 K; 32 °F), except in winter.
It has been reported that "On the basis of the nighttime air temperature data, every
northern spring and early northern summer yet observed were identical to within the level
of experimental error (to within ±1 °C)" but that the "daytime data, however, suggest a
somewhat different story, with temperatures varying from year-to-year by up to 6 °C in this
season.This day-night discrepancy is unexpected and not understood". In southern spring
and summer, variance is dominated by dust storms which increase the value of the night
low temperature and decrease the daytime peak temperature. This results in a small (20 °C)
decrease in average surface temperature, and a moderate (30 °C) increase in upper
atmosphere temperature.
The datasets "suggest generally colder atmospheric temperatures and lower dust loading in
recent decades on Mars than during the Viking Mission, though Viking data had previously
been revised downward.The TES data indicates "Much colder (10-20 K) global atmospheric
temperatures were observed during the 1997 versus 1977 perihelion periods" and "that the
global aphelion atmosphere of Mars is colder, less dusty, and cloudier than indicated by the
established Viking climatology," again, taking into account the Wilson and Richardson
revisions to Viking data.
Wind[edit]
Curiosity rover's parachute flapping in the Martian wind
(HiRISE/MRO) (August 12, 2012 to January 13, 2013).
The surface of Mars has a very low thermal inertia, which
means it heats quickly when the sun shines on it. Typical
daily temperature swings, away from the polar regions, are
around 100 K. On Earth, winds often develop in areas
where thermal inertia changes suddenly, such as from sea
to land. There are no seas on Mars, but there are areas
where the thermal inertia of the soil changes, leading to
morning and evening winds akin to the sea breezes on
Earth.[36] The Antares project "Mars Small-Scale Weather"
(MSW) has recently identified some minor weaknesses in
current global climate models (GCMs) due to the GCMs'
more primitive soil modeling "heat admission to the ground and back is quite important in
Mars, so soil schemes have to be quite accurate. " [37] Those weaknesses are being corrected
and should lead to more accurate future assessments, but make continued reliance on
older predictions of modeled Martian climate somewhat problematic.
Martian Dust Devil – inAmazonis Planitia (April 10, 2001) (also) (video (02:19)).
At low latitudes the Hadley circulationdominates, and is essentially the same as the process
which on Earth generates thetrade winds. At higher latitudes a series of high and low
pressure areas, calledbaroclinic pressure waves, dominate the weather. Mars is dryer and
colder than Earth, and in consequence dust raised by these winds tends to remain in the
atmosphere longer than on Earth as there is no precipitation to wash it out (excepting
CO2snowfall).[38] One such cyclonic storm was recently captured by the Hubble space
telescope (pictured below).
One of the major differences between Mars' and Earth's Hadley circulations is their
speed[39] which is measured on an overturning timescale. The overturning timescale on
Mars is about 100 Martian days while on Earth, it is over a year.
Table
Mars
Earth
Atmosphere (composition)
Carbon dioxide (95.32%)
Nitrogen (77%) Oxygen (21%)
Nitrogen (2.7%) Argon (1.6%) Argon (1%) Carbon dioxide
Oxygen (0.13%) Water
(0.038%) Water vapour (1%)
vapour (0.03%) Nitric oxide
(0.01%)
Atmosphere (pressure)
7.5 millibars (average)
1.013 milibars (at sea level)
Deepest Canyan
Valles Marineries 7 km deep
Grand Canyon 1.8 km deep
4,000 km wide
400 km long 149,597,891
kilometers
Distance from sun (average)
227,936,637 kilometers
149,597,891 kilometers
Equatorial Radius
3,398 kilometers
6,378 kilometers
Gravity
0.375 that of Earth
2.66 times that of Mars
Largest Volcano
Olympus Mons 26km high
Mauna Loa (Hawaii) 10.1 km
602km in diameter
high than 121 km in
diameter
Length of Day
24 hours, 37 minutes
Just slightly under 24 hours
Length of Year
687 Earth days
365 days
Polar Caps
Covered with a mixture of
Permanently covered with
carbon dioxide ice and water water ice
ice
Surface Temperature
-63 degrees C
14 degrees C
(average)
Tilt of Axis
25 degrees
23.45 degrees
Number of Satellites
2 (Phobos and Deimos)
1 (Moon)
Mangalyaan - India's Mars mission
The Mars Orbiter Mission MOM, sometimes called
Mangalyaan, is India’s first mission to Mars set for launch Image: Indian Space Research Organization
aboard a Polar Satellite Launch Vehicle in November 2013
for an arrival at Mars in 2014. The 1,337-Kilogram
spacecraft carries a suite of five instruments to study Mars,
its atmosphere and acquire photos of the Red Planet. Most
importantly, the mission serves as a demonstration mission
with the main objective of placing Mangalyaan in orbit
around Mars as a study for future spacecraft and mission
design.
The mission was put together on rather short notice – being
approved in August 2012 with just 15 months to go until
the Interplanetary Launch window that comes once every 26
months. The development of the mission was initiated one
year
earlier.
The Mars Orbiter Mission was approved by the Indian
Government after the Indian Space Research Organization
completed a project study.
Mangalyaan was approved for a total project cost of $69 million. In 2012, the individual
components of the orbiter began assembly before the spacecraft came together in March
2013. The instruments started integration with the spacecraft in April to begin testing in
August and September without much margin of error for meeting the launch window that
stretches from October 28, 2013 to November 19, 2013.
KENDRIYA VIDYALAYA SANGATHAN CHENNAI REGION
SUMMATIVE ASSESSMENT II
OTBA 2015 THEME II
STD VIII SUBJECT-SCIENCE
Coal and Petroleum
Crude oil, coal and natural gas formed from the prehistoric matter of plants,
animals, zooplankton and other life that was buried sometimes miles deep inside the
Earth and subjected to high temperatures and high pressure over millions of years.
These three so-called fossil fuels include a wide assortment of carbon-based
substances.
COAL
Coal is India’s primary source of energy. The country has the world’s fifth-largest
coal reserves, and ranked third largest in terms of both production and consumption
in 2012.
GRAPH 1
Our
consumption
is more
than
the
production
so
we
are
importing
.
Like all fossil and biofuels, all coal produces carbon dioxide when it is burned. Some
coals can produce more energy per pound, and each source of coal has naturallyoccurring pollutants that can be released when the coal is burned or stored, including
radioactive materials and toxic metals like mercury. . Coal is also the source of
countless mining and transportation accidents and steady supply of greenhouse
gases. Coal-fired power plants produce small particulates — tiny dusts — that can
harm lungs, as well as sulfur and nitrogen compounds that cause acid rain.
PETROLEUM
Humans have known about petroleum, or crude oil, for centuries, but the
substance wasn’t considered terribly interesting until the mid 1800s, when it was
distilled into kerosene and found to be a good, cheap alternative to burning whale oil
in oil lamps. At that time, only the wealthiest could afford whale oil, which was
preferred over candles or animal fats. Americans and others worldwide quickly
adopted petroleum and learned to make an unending stream of useful products from
it. Simultaneously, a worldwide obsession with striking oil was born.
The earliest combustion engines were invented before gasoline, diesel or kerosene,
but automobiles started becoming available by the late 1800s, a few decades after
petroleum exploration began in earnest.
India’s largest energy source is coal, followed by petroleum and traditional biomass
and waste. India was the fourth-largest consumer of crude oil and petroleum
products in the world in 2013, after the United States, China, and Japan. The
country depends heavily on imported crude oil, mostly from the Middle East.
GRAPH 2

In this graph also, we can see that the total consumption is more than total oil
production
India was also the fourth-largest net importer of crude oil and petroleum products.
The gap between India’s oil demand and supply is widening, as demand reached
nearly 3.7 million barrels per day (bbl/d) in 2013 compared to less than 1 million
bbl/d of total liquids production.
EIA projects India’s demand will more than double to 8.2 million bbl/d by 2040, while
domestic production will remain relatively flat, hovering around 1 million bbl/d.

According to the Oil & Gas Journal (OGJ), India held nearly 5.7 billion barrels of
proved oil reserves at the beginning of 2014. About 44% of reserves are onshore
resources, while 56% are offshore. Most reserves are found in the western part of
India, particularly the Western offshore area near Gujarat and Rajasthan. The
Assam-Arakan basin in the northeastern part of the country is also an important oilproducing region and contains more than 23% of the country’s reserves and 12% of
the production.
However, India still imports kerosene and liquefied petroleum gas (LPG) products for
domestic use. In particular, many rural areas of India use LPG and kerosene along
with traditional biomass as cooking fuels .The government is encouraging a shift
from kerosene used in cooking fuel in rural areas to LPG, a cleaner and lessexpensive fuel. Liquid fuels have competed with natural gas in the past few years as
the power and fertilizer industries are using natural gas as a substitute for some
naphtha and fuel oil supply. Diesel remains the most-consumed oil product,
accounting for 42% of petroleum product consumption in 2013.
Most of the energy that we use today comes mainly from the three exhaustible
resources of the earth:coal, petroleum and natural gas. The amount of coal ,
petroleum and natural gas present in the earth is limited . The known reserves of
coal ,petroleum and natural gas present in the earth will last only for about 100
years. Once the present stock of coal ,petroleum and natural gas present in the earth
gets exhausted ,no new supplies of these fossil fuels will be available to us in the
near future because it takes millions of years to convert the dead organisms into
fossil fuels in nature.So, fossil fuels should be used with care and caution and not
wasted at all so that the existing reserves of fossil fuels can be used over as long a
period as possible.Moreover , the burning of fossil fuels is a major source of air
pollution . The use of fossil fuels is also linked to global warming because they
produce a lot of greenhouse gas carbon dioxide on burning.So the use of lesser
fossil fuels will lead to cleaner environment and smaller risk of global warming.
. See the statistics of the pollutants emitted by fossil fuels
Steps to Reduce the Consumption of Coal
and Petroleum
Coal is used mainly to produce electricity. So, if we can save electricity, then the
consumption of coal will be automatically reduced. Similarly, the petroleum products
kerosene and LPG are used for cooking food, and petrol and diesel are used as fuel
in motor vehicles, so if we can save on kerosene, LPG, petrol and diesel, then the
consumption of petroleum will also get reduced. Some of the steps which can be
taken to conserve energy resources (like coal and petroleum) are as follows:
1. Switch off the lights, fans, television and other electrical appliances when not
needed. This will save a lot of electricity.
2. Use energy efficient electrical appliances to save electricity. This can be done by
using Compact Fluorescent Lamps (CFL) and fluorescent tube-lights instead of
traditional filament-type electric bulbs (because CFL and tube-lights consume much
less electric energy as compared to filament-type electric bulbs for producing the
same amount of light).
3. Use stairs to climb at least up to three floors of a building instead of taking a lift.
This will save electricity.
4. Pressure cookers should be used for cooking food to save fuels like kerosene and
LPG.
5. Good quality stoves should be used to burn fuels like kerosene and cooking gas
(LPG) so as to obtain maximum heat.
6. Solar cookers should be used to cook food whenever possible.
7. The use of biogas as domestic fuel should be encouraged in rural areas.
8. Bicycles should be used for covering short distances to save precious fuel like
petrol (which is used in cars, scooters and motorcycles).
9. Public transport system (local bus and train service) in the cities should be
improved so that people do not commute in their personal vehicles. This will save a
lot of petrol and diesel.
10. Fuel efficient engines of motor vehicles should be designed to reduce the
consumption of petrol and diesel.
Energy Conservation in India
Energy conservation Act. – 2001 provides for a Bureau of Energy
Efficiency (BEE)for the efficient use of energy and its conservation.
National Energy conservation Award Scheme - 2005 was
launched.“National Campaign on Energy conservation” was launched by P.M. on
National Energy conservation Day – 14 Dec, 2004.On 18 May 2006 “National
Energy Labeling Programme” was finally launched.
Petroleum conservation Research Association (PCRA) (1978) – to
promote conservation of Petroleum products in the major sectors like transport,
industry, households and Agriculture.
It is promoting the use of Bio fuels and Urban Energy Management, and Jatropha
based diesel in rural sector.
Conservation of Coal enjoins maximum recovery of in- situ reserves.
Mechanized open cast mining- presently adopted technology .
Long wall and continuous mining technology – yields 70- 80% recovery but its
adoption has not been possible in India due to difficult geo- mining conditions.
The coal Conservation and Development Act- 1974.
Publicity & Awareness creation on new & Renewable energy sources
Rajiv Gandhi Akhshay Urja Divas (20 August) to commemorate the birth
anniversary of the late P.M (since 2004).
Public Awareness Programmes are organized on mass scale on this day.
District Advisory Committees have been set up with the Collector as its Chaiman
to create awareness. Renewable energy Clubs are been set up
in AICTE recognized Engg. Colleges all over the country.
Media Workshops are being organized.
Kendriya Vidyalaya Sangathan
CLASS VIII – SOCIAL STUDIES
SA II - OTBA(10 MARKS)
Time: 30 min
THEME - I
VISUAL ART FORMS IN INDIA
Chitrakathi Paintings
Chitrakathi Paintings (Maharastra) These paintings which are around
300-400 yrs old are
called Chitra(picture)Kathi or Katha(story)in
which stories of the
Ramayana,
the
Mahabharata
are
depicted on handmade
paper using natural
colours. Its an almost
extinct
art
form
practised by the Thakkar tribal community of Maharashtra.
Chitrakathi artists are a community of migrating story tellers found
all over Maharashtra and some parts of Andhra Pradesh and Karnataka.
They made a series of single sheets of paintings. All paintings
belonging to one story were kept in a bundle called pothi.
Kalamkari
Kalamkari is an art that involves
weaving and hand block printing apart
from painting. The figures with rounded
shapes and border designs are typical of
kalamkari. Wall hangings, prayer mats,
waist bands and dress materials like
kurtas, and caps are popular kalamkari
products. The Kalahasti tradition which developed in the temple region
of Andhra Pradesh mostly concentrated on themes form Hindu
mythology (Ramayana, Mahabharatha), images of Gods and heroes
The cloth and color are first decided. The cloth is first bleached with
goat or cow dung and then treated with milk solution to avoid the color
spreading. Color dyes are all natural. Wax resist is used for dying the
cloth in different colors. Since the whole process involves natural
colors and chemicals, the art has fast gained a place for itself in the
international markets.
Madhubani
Madhubani painting is a style of
painting, practiced in the Mithila region
of Bihar state. Themes revolve around
Hindu Gods and mythology, along with
scenes from the royal court and social
events like weddings. Generally no
space is left empty; the gaps are filled by paintings of flowers,
animals, birds, and even geometric designs. In this paintings artists
uses leaf, Herbs, Flowers to make the colour which is used for
paintings.
Phad Paintings
is
a
style
religious scroll
painting and folk painting, practiced
in Rajasthan state of India This style
of painting is traditionally done on a
long piece of cloth or canvas, known
as phad. The narratives of the folk
deities
of
Rajasthan,
mostly
of Pabuji and Devnarayan are
depicted on the phads. The Bhopas,
the priest-singers traditionally carry
the painted phads along with them
and use these as the mobile temples of the folk deities. The phads of
Pabuji are normally about 15 feet in length, while the phads of
Devnarayan are normally about 30 feet long. Traditionally the phads
are painted with vegetable colors.
The
Joshi
families
of Bhilwara, Shahpura in Bhilwara
district of Rajasthan are widely known as the traditional artists of this
folk art-form for the last two centuries.
, it can be explained as huge painting on cloth, depicting heroic deeds
of brave men.
Phad paintings are renowned as the most celebrated folk paintings in
sphere of art and culture. They have a great and unparalleled appeal.
Warli
The Warlis or Varlis are an
indigenous tribe or Adivasis, living in
mountainous as well as coastal areas
of Maharashtra-Gujarat border and
surrounding areas. They have their
own animistic beliefs, life, customs
and traditions, as a result of their
culture that they have adopted .The
Warlis speak an unwritten Varli language which belong to the
southern zone of the Indo-Aryan languages and the union territories
of Dadra and Nagar Haveli and Daman and Diu.
Cave Painting
Cave paintings are paintings found on cave walls and
ceilings. The exact purpose of the cave paintings is not
known. Evidence suggests that they were often located in
areas that are not easily accessible. Some theories hold that
cave paintings may have been a way of communicating with
others, while other theories suggest a religious purpose to
them.
AJANTA is world's greatest historical monument recognized
by UNESCO located just 55kms from Jalgaon city and 105
kms from Aurangabad City of Maharashtra, India. There are
30 caves in Ajanta of which 9, 10, 19, 26 and 29 are chaityagrihas and the rest are monasteries. The caves form the
largest collection of early Indian wall-painting;The site is a
protected monument in the care of the Archaeological
Survey of India, and since 1983, the Ajanta Caves have been
a UNESCO World Heritage Site.
*************
Kendriya Vidyalaya Sangathan
CLASS VIII – SOCIAL STUDIES
SA II - OTBA(10 MARKS)
Time: 30 min
THEME II
PERFORMING ART OF INDIA
Culture plays an important role in the development of any
nation. It represents a set of shared attitudes, values, goals and
practices. Culture and creativity manifest themselves in almost all
economic, social and other activities. A country as diverse as India is
symbolized by the plurality of its culture.
India has one of the world’s largest collections of songs, music,
dance, theatre, folk traditions, performing arts, rites and rituals,
paintings and writings that are known, as the ‘Intangible Cultural
Heritage’ (ICH) of humanity. In order to preserve these elements, the
Ministry of Culture implements a number of schemes and
programmes aimed at providing financial support to individuals,
groups and cultural organizations engaged in performing, visual and
literary arts etc. Some very popular performing art forms in India are:
Ramlila
Ramlila is, based on the mythological story of a battle between Lord
Rama and Demon Ravana. Its staging takes place at a number of
places throughout India, once a year, and usually lasts for 10-12
days. Places like Ramnagar, Kumaoni, Varanasi and Chitrakoot are
famous for their Ram Leela.
Puppetry
Puppetry, is an ancient form of entertainment, The early puppet
shows staged in India were mostly based on stories of famous Indian
kings and heroes and at times, also on the social and political issues,
religious themes, etc . Shadow puppetry is also very popular.
Therukoothu, folk drama of Tamil Nadu, literally means "street play".
It is mostly performed at the time of annual temple festivals of (Rain
goddess) to achieve rich harvest. The Therukoothu performance,
gives the gist of the play to the audience and Komali entertains the
audience with his buffoonery.
Intangible Cultural Heritage of Humanity
The UNESCO (United Nations Educational, Scientific and Cultural
Organisation) has listed three Indian performing-art forms in the list
of Intangible Cultural Heritage of Humanity. They are Kerala's
Mudiyettu, Chhau of east India and Kalbelia of Rajasthan.
Kalbelia
Kalbeli tribes are a community of
snake charmers from Rajasthan.
They are known for their frequent
movement from one place to
another in ancient times. Their main
occupation is catching snakes and
trading snake venom. Hence, the
dance
movements
and
the
costumes of their community bear a
resemblance to that of the serpents.
Mudiyettu Mudiyettu, the ritual
dance drama annually performed
after the harvest of summer crops in
Kerala, is more than 250 years old.
This art form involves elaborate
drawings on floors, playing of drums
and masks made of coconut shells.
Chhau
The Chhau dance is known for its
crafted masks and mock combat
movements. It is prevalent in the
tribal parts of Orissa, Jharkhand
and West Bengal. The economic
backwardness of the area has had a
negative impact on the artists of the
Chhau and their art.
Reasons For The Disappearance Of Traditional Performing Art
 Traditional skills are normally handed down from elderly
persons (having a lifetime of expertise) to the next generation.
But the present generation has little respect for their expertise.
 In a society of modern times, where the role of youth is more
important, the transmission of tradition is not taken forward
properly.
 The changing role of women in the modern times has changed
the outlook and lifestyle of people. This has also adversely
affected the conservation process.
 The efforts taken by the local authorities and agencies are not
significant and sufficient. This has not encouraged the local
people to take part in the process of conservation.
These social changes therefore make it extremely difficult to preserve
folklore.
The UNESCO through “living cultural treasures” programme, and
the Government of India have drafted measures to promote the
various regional art forms.
The Constitution of India prescribed under the fundamental duties that
the protection of heritage is one of the important duties of each and
every Citizen of India. Therefore every citizen is vested with
individual responsibilities to preserve the rich cultural tradition which
we have inherited from our ancestors.