UNIVERSITY OF PETROLEUM AND ENERGY STUDIES,DEHRADUN
NAME:-ANIK KUMAR BHATTACHERJEESAP ID:-500051548ENROLLMENT
NO:-R130216004
THEORY OF DEMAND:-Demand is the quantity of a good or service
that consumers are willing and able to buy at a given price in a
given time period Each of us has an individual demand for
particular goods and services and our demand at each price reflects
the value that we place on a product, linked usually to the
enjoyment or usefulness that we expect from consuming it.
Economists give this a term - utility Effective Demand Demand is
different to desire! Effective demand is when a desire to buy a
product is backed up by an ability to pay for itLatent Demand
Latent demand exists when there is willingness to buy among people
for a good or service, but where consumers lack the purchasing
power to be able to afford the product.
Derived Demand The demand for a product X might be connected to
the demand for a related product Y giving rise to the idea of a
derived demand. For example, demand for steel is strongly linked to
the demand for new vehicles and other manufactured products, so
that when an economy goes into a recession, so we expect the demand
for steel to decline likewise. Steel is a cyclical industry which
means that market demand for steel is affected by changes in the
economic cycle and also by fluctuations in the exchange rate. Zinc
is a good example of a product with a strong derived demand. It has
a wide-range of end users such as galvanised zinc used in cars and
new buildings, die-casting used in door furniture and toys, brass
and bronze used in taps and pipes. And also rolled zinc (used in
roofing, guttering and batteries) and in chemicals used in making
tyres and zinc cream. Transport as a Derived Demand The demand for
transport is the number of journeys consumers or firms are willing
and able to purchase at various prices in a given time period.
Transport is rarely demanded for its own sake, the journey, but for
what the journey enables e.g. commuting, taking a holiday or
distribution. When an economy is growing, there is an increase in
derived demand for commuting, business logistics and transport for
holiday purposes. The Law of Demand There is an inverse
relationship between the price of a good and demand. 1. As prices
fall, we see an expansion of demand.2. If price rises, there will
be a contraction of demand.Ceteris paribus assumption Many factors
affect demand. When drawing a demand curve, economists assume all
factors are held constant except one the price of the product
itself. Ceteris paribus allows us to isolate the effect of one
variable on another variable The Demand Curve A demand curve shows
the relationship between the price of an item and the quantity
demanded over a period of time. There are two reasons why more is
demanded as price falls: 1. The Income Effect: There is an income
effect when the price of a good falls because the consumer can
maintain the same consumption for less expenditure. Provided that
the good is normal, some of the resulting increase in real income
is used to buy more of this product. 2. The Substitution Effect:
There is a substitution effect when the price of a good falls
because the product is now relatively cheaper than an alternative
item and some consumers switch their spending from the alternative
good or service.
The Law of Demand As price falls, a person switches away from
rival products towards the product As price falls, a person's
willingness and ability to buy the product increases As price
falls, a person's opportunity cost of purchasing the product
fallsNote: Many demand curves are drawn as straight lines to make
the diagrams easier to interpret The chart below shows average
season ticket prices for English Premier League clubs. What factors
affect the willingness and ability to pay for a season ticket? Why
is there such a large difference in prices?
Average Season Ticket Price in EPL
In contrast, the electricity demand of the commercial sector was
rapidly growing nationwide (Table-1). The area with the highest
growth rate is Tokyo. Rural regions such as Kyushu, Hokuriku, and
Tohoku are also considered high-growth areas. Among the economic
factors, production accounts for about 60% of the increase. This
result suggests that electricity demand has markedly increased in
the commercial sector because of factors, such as an increase in
the floor space used by businesses and developments in office
automation across the country.Table 1 Contribution to regional
electricity demand in the commercial sector, 19902010 (%)Growth
rate of electricity demand (total)PriceProductionCooling degree
daysHeating degree daysMargin of error
Hokkaido1.590.030.790.040.020.70
Tohoku1.710.021.140.020.040.49
Tokyo2.040.021.380.010.060.57
Chubu1.890.011.330.010.080.46
Hokuriku1.790.021.040.010.080.63
Kansai1.510.010.660.000.070.77
Chugoku1.570.021.100.010.090.35
Shikoku1.670.031.270.000.060.31
Kyushu1.930.031.310.000.100.48
Okinawa1.660.012.110.001.161.61
Average1.740.021.110.010.070.53
Notes: The growth rate of electricity demand (total) is the
finite difference approximation of the logarithm (annual average).
The regional classification is as follows: Hokkaido (Hokkaido),
Tohoku (Aomori, Iwate, Miyagi, Akita, Yamagata, Fukushima, and
Niigata), Tokyo (Ibaraki, Tochigi, Gunma, Saitama, Chiba, Tokyo,
Kanagawa, and Yamanashi), Hokuriku (Toyama, Ishikawa, and Fukui),
Chubu (Nagano, Gifu, Shizuoka, Aichi, and Mie), Kansai (Shiga,
Kyoto, Osaka, Hyogo, Nara, and Wakayama), Chugoku (Tottori,
Shimane, Okayama, Hiroshima, and Yamaguchi), Shikoku (Tokushima,
Kagawa, Ehime, and Kochi), Kyushu (Fukuoka, Saga, Nagasaki,
Kumamoto, Oita, Miyazaki, and Kagoshima), and Okinawa (Okinawa)The
electricity rate continued decreasing over time during the
measurement period, which led to an increase in the demand for
power. However, this effect was marginal in both the industrial and
commercial sector. These results suggest that the electricity rates
had only minimal effects on fluctuations in the demand for power,
as the observed price elasticity was extremely low. Therefore, we
can infer that the current hikes in the electricity rate will not
lead to a significant change in future power demands.
Elasticity Of Demand:- When the price of a goods falls, its
quantity demanded rises and when the price of the goods rises, its
quantity demanded falls. This is generally known as law of demand.
This law of demand indicates only the direction of change in
quantity demanded in response to change in price. This does not
tell us by how much or to what extent the quantity demanded of
goods will change in response to a change in its price. This
information as to how much or to what extent the quantity demanded
of a good will change as a result of a change in its price is
provided by the concept of elasticity of demand. The concept of
elasticity has a very great importance in economic theory as well
as for formulation of suitable economic policy. Various Concepts of
Demand Elasticity: It is price elasticity of demand which is
usually referred to as elasticity of demand. But, besides price
elasticity of demand, there are various other concepts of demand
elasticity.Demand for a good is determined by its price, incomes of
the people, prices of related goods, etc. Quantity demanded of a
good will change as a result of a change in the size of any of
these determinants of demand. The concepts of elasticity of demand,
therefore, refers to the degree of responsiveness of quantity
demanded of a goods to a change in its price, income and prices of
related goods. Accordingly, there are three concepts of demand
elasticity: price elasticity, income [elasticity, and cross
elasticity. Price elasticity of demand relates to the
responsiveness of quantity demanded of a good to the change in the
price. Income elasticity of demand refers to the sensitiveness of
quantity demanded in the change in incomes. Cross elasticity of
demand means the degree of responsiveness of demand of a goods to a
change in the price of a related goods, which may be either a
substitute for it or a complementary with it. Besides these three
kinds of elasticitys, there is another type of elasticity of demand
called elasticity of substitution which refers to the change in
quantity demanded of a good in response to the change in its
relative price alone, real income of the individual remaining the
same. As said above, price elasticity of demand expresses the
response of quantity demanded of a good to changes in its price,
given the consumers income, his tastes and prices of all other
goods. Thus, price elasticity means the degree of responsiveness or
sensitiveness of quantity demanded of a goods to change in its
prices. In other words, price elasticity of demand is a measure of
the relative change in its price. Price elasticity can be precisely
defined as the proportionate change in quantity demanded in
response to a small change in price, divided by the proportionate
change in price (Mrs. Robinson). Thus,
where ep stands for price elasticityq stands for quantityp
stands for price stands for a small changeMathematically speaking,
price elasticity of demand is negative, since the change in
quantity demanded is in opposite direction to the change in price.
When price falls, quantity demanded rises and vice versa. But for
the sake of convenience in understanding the magnitude of response
of quantity demanded to the change in price we ignore the negative
sign and take into account only the numerical value of the
elasticity.Thus, if 2 per cent change in price leads to 4 per cent
change in quantity demanded of goods A ads 8 per cent change in
that of B, then the above formula of elasticity will give the value
of price elasticity of goods A equal to 2 and that of goods B equal
to 4. It indicates that the quantity demanded of goods B changes
much more than that of goods an in response to a given change in
price.But if we had written minus signs before the numerical values
of elasticitys of two goods, that is, if we had written the
elasticitys as -2 and -1 respectively as strict mathematics would
require us to do, then since -1 is smaller than-2, we would have
been misled in concluding that price elasticity of demand of B is
less than that of 4.But, as we have noted above, response of demand
for B to the change in price is greater than that of A, it is
better to ignore minus sign and draw conclusions from the numerical
values of elasticitys. Hence by convention minus sign before the
value of price elasticity of demand is generally ignored in
economics.It is a matter of common knowledge and observation that
there is a considerable difference between different goods in
regard to the magnitude of response of demand to the changes in
price. The demand for some goods is more responsive to the changes
in price than those of others.In terminology of economies, we would
say that the demand for some goods is more elastic than those for
the others or the price elasticity of demand of some goods is
greater than those of the others.Marshall who introduced the
concept of elasticity in economic theory remarks that the
elasticity or responsiveness of demand in a market is great or
small according as the amount demanded increases much or little for
a given full in price, and diminishes much or little for a given
rise in price.
This will be clear from Figures 14 and 15 which represent two
demand curves. For a given fall in price, from OP to OF, increase
in quantity demanded is much greater in Figure 14 than in Figure
15. Therefore, demand curve in figure 14 as more elastic than the
demand curve in figure 15 for a given fall in price. Demand for the
goods represented in Figure 14 is generally said to be elastic and
the demand for the goods in figure 15 to be inelastic.It should,
however, be noted that terms elastic and inelastic are used in the
relative sense. In other words, elasticity is a matter of degree
only. Demand for some goods is only more or less elastic than
others. There is no commodity in the real world for which the
demand is completely inelastic.Similarly, in the actual world we
find no example of goods whose demand is perfectly elastic. Thus,
when we say that demand for a good is elastic, we mea only that the
demand for it is relatively more elastic. Likewise, when we say
that demand for a good inelastic, we do not mean that its demand is
absolutely inelastic but only that it is relatively less elastic.In
economic theory elastic and inelastic demands have come to acquire
precise meanings. Demand for goods is said to be elastic if the
elasticity of demand for it is greater than ani. Similarly, the
demand for goods is called inelastic if elasticity of demand for it
is less than one. Elasticity of demand equal to one, or in other
words; unit elasticity of demand, therefore, represents the
dividing line between elastic and inelastic demand.It will now be
clear that by inelastic demand we do not mean perfectly inelastic
but only that the elasticity of demand is less than unity; and by
elastic demand we do not mean absolutely elastic but that the
elasticity of demand is greater than one.As said above, goods great
variation in respect of elasticity of demand, i.e., their
responsiveness to changes in price. Some goods like common salt,
wheat and rice are very unresponsive to the changes in their
prices. The demand for salt remains practically the same for a
small rise or fall in its price. Therefore, demand for common salt
is said to be inelastic. Demand for goods like radios,
refrigerators etc. Is elastic, since changes in their prices bring
about large changes in their quantity demanded.We shall explain
later at length those factors which are responsible for the
differences in elasticity of demand of various goods. It will
suffice here to say that the main reason for differences in
elasticity of demand is the possibility of substitution, i.e., the
presence or absence of competing substitutes.The greater the case
with which substitutes can be found for a commodity or with which
it can be substituted for other commodities the greater will be the
price elasticity of demand of that commodity.Goods are demanded
because they satisfy some particular wants and in general wants can
be satisfied in a variety of alternative ways. For instance, the
want for entertainment can be gratified by having a radio set, or
by possessing a gramophone, or by going to cinema or by visiting
theatres. If the price of radio set falls, the quantity demanded of
radio sets will rise greatly since fall in the price of radio will
induce some people to buy radios in place of having gramophones or
visiting cinemas and theatres.Thus, the demand for radios is
elastic. Likewise, if the price of Lux falls its demand will
greatly rise because it will be substituted for other varieties of
soapsuch as Jai, Hamam and Oasis etc. On the contrary the demand
for necessary goods like salt is inelastic.The demand for salt is
inelastic since it satisfies a basic human want and no substitutes
for it are available. People would consume almost the same quantity
of salt whether it becomes slightly cheaper or dearer than before.
Daily Energy Demand Curve:-The energy demand on the gird varies by
the time of day, the day of the week, the temperature, the latitude
of the location, and the seasons (and many other factors). As
instant energy generation must follow instant demand, the shape of
the daily energy demand is fairly critical. Thankfully, its shape
and amplitude are reasonably predictable.
Daily demand across seasons (Source: New England ISO)This
display of the daily demand for the New England Independent System
Operator (which operates the grid in real-time for that region)
captures some reasonably typical properties: the average load is n
general lower in fall and spring, and higher in summer and winter.
In many developed countries (but not all), it will be highest in
summer, due to the high energy cost of air conditioning. in summer,
for many most developed countries, there is a single maximum for
the daily demand in the mid afternoon. This peak is often the
overall peak for the whole year. in other seasons, there is often a
double peak, in the morning and in the evening, as people have come
back from work and start appliances, TVs, hot water heaters etc.
The evening peak is in general the daily peak for that season. In
some cases, there is no morning peak, as demand remains stable
during the work day, or keeps on increasing slowly until the
evening peak.
UK Daily Demand 2011 National Grid plc, all rights reservedThe
above figure displays the daily demand for two seasons in the UK, a
country with cooler summers than New England. For the UK, we
recognize a similar shape for winter, with a high evening peak.
Summer has a fairly even work-day consumption, with no significant
use of air conditioning, due to the climate. For the same reason,
winter calls for more energy sue (heating) than summer.
Daily Demand for Florida winter and summer (source Florida
Public Utility Commission)Again, we recognize the patterns: single
afternoon peak for summer, double peak for winter (in this case
where the morning peak is higher). Unexpectedly (at least for me),
the peak high in winter has been higher than the peak high summer
over the past few years (48,872 MW vs. 48,385 MW for 2010 source
Florida Public Utility Commission).As a last example, following are
the daily demand curves for a single winter and summer day for
California:
Daily Demand for one California winter day (Source CAISO)We
recognize the characteristic evening peak for this winter day.
Daily demand for a California summer day (source CAISO) and we
recognize the characteristic mid-afternoon peak for this California
summer day.It is interesting to look at what actually constitutes
the actual demand for summer and winter days. Following are
detailed analyses of winter and summer demand curves for New South
Wales in Australia.
Daily Demand, winter, by application, New South Wales (source:
Australia Dept of Industry/ Energy Efficiency)We recognize the
characteristics double winter peak, particularly accented in this
example. Interestingly, night usage is higher than day use,
primarily due to off-peak hot water usage.
Daily demand, summer, by application, for New South Wales
(source: Australia dept of Industry/ Energy Efficiency)The
characteristic single summer peak occurs comparatively very late,
and is also topped by night usage, as in the winter demand curve.,
despite the heavy air conditioning use in mid- and late-afternoon.
In both cases, outside of AC, the largest uses of energy are hot
water and refrigeration.The shape of the daily demand curve is
particularly important because, as it must be exactly matched
instant by instant by the generation on the grid, its requirements
are absolute and point at a specific structure for solutions to the
generation problem.
Refference:-
https://energymag.net/daily-energy-demand-curve/https://journalofeconomicstructures.springeropen.com/articles/10.1186/s40008-015-0021-8http://www.tutor2u.net/economics/reference/theory-of-demandhttp://www.yourarticlelibrary.com/economics/elasticity-as-demand/elasticity-of-demand-concept-of-demand-elasticity-explained-with-diagram/39032/
