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In the past few months, retail prices of petrol and diesel have consistently increased and have reached all-time high levels. On September 24, 2018, the retail price of petrol in Delhi was Rs 82.72/litre, and that of diesel was Rs 74.02/litre. In Mumbai, these prices were even higher at Rs 90.08/litre and Rs 78.58/litre, respectively.
The difference in retail prices in the two cities is because of the different tax rates levied by the respective state governments on the same products. This blog post explains the major tax components in the price structure of petrol and diesel and how tax rates vary across states. It also analyses the shift in the taxation of these products, its effect on retail prices, and the consequent revenue generated by the central and state governments.
What are the components of the price structure of petrol and diesel?
Retail prices of petrol and diesel in India are revised by oil companies on a daily basis, according to changes in the price of global crude oil. However, the price paid by oil companies makes up 51% of the retail price in case of petrol, and 61% in the case of diesel (Table 1). The break-up of retail prices of petrol and diesel in Delhi, as on September 24, 2018, shows that over 45% of the retail price of petrol comprises central and states taxes. In the case of diesel, this is close to 36%.
At present, the central government has the power to tax the production of petroleum products, while states have the power to tax their sale. The central government levies an excise duty of Rs 19.5/litre on petrol and Rs 15.3/litre on diesel. These make up 24% and 21% of the retail prices of petrol and diesel, respectively.
While excise duty rates are uniform across the country, states levy sales tax/value added tax (VAT), the rates of which differ across states. The figure below shows the different tax rates levied by states on petrol and diesel, which results in their varying retail prices across the country. For instance, the tax rates levied by states on petrol ranges from 17% in Goa to 39% in Maharashtra.
Note that unlike excise duty, sales tax is an ad valorem tax, i.e., it does not have a fixed value, and is charged as a percentage of the price of the product. This implies that while the excise duty component of the price structure is fixed, the sales tax component is charged as a proportion of the price paid by oil companies, which in turn depends on the global crude oil price. With the recent increase in the global prices, and subsequently the retail prices, some states such as Rajasthan, Andhra Pradesh, West Bengal, and Karnataka have announced tax rate cuts.
How have retail prices in India changed vis-à-vis the global crude oil price?
India’s dependence on imports for consumption of petroleum products has increased over the years. For instance, in 1998-99, net imports were 69% of the total consumption, which increased to 93% in 2017-18. Because of a large share of imports in the domestic consumption, any change in the global price of crude oil has a significant impact on the domestic prices of petroleum products. The following figures show the trend in price of global crude oil and retail price of petrol and diesel in India, over the last six years.
The global price of crude oil (Indian basket) decreased from USD 112/barrel in September 2012 to USD 28/barrel in January 2016. Though the global price dropped by 75% during this period, retail prices of petrol and diesel in India decreased only by 13% and 5%, respectively. This disparity in decrease of global and Indian retail prices was because of increase in taxes levied on petrol and diesel, which nullified the benefit of the sharp decline in the global price. Between October 2014and June 2016, the excise duty on petrol increased from Rs 11.02/litre to Rs 21.48/litre. In the same period, the excise duty on diesel increased from Rs 5.11/litre to Rs 17.33/litre.
Over the years, the central government has used taxes to prevent sharp fluctuations in the retail price of diesel and petrol. For instance, in the past, when global crude oil price has increased, duties have been cut. Since January 2016, the global crude oil price has increased by 158% from USD 28/barrel to USD 73/barrel in August 2018. However, during this period, excise duty has been reduced only once by Rs 2/litre in October 2017. While the central government has not signalled any excise duty cut so far, it remains to be seen if any rate cut will happen in case the global crude oil price rises further. With US economic sanctions on Iran coming into effect on November 4, 2018, India may face a shortfall in supply since Iran is India’s third largest oil supplier. Moreover, Organization of Petroleum Exporting Countries (OPEC) and Russia have not indicated any increase in supply from their side yet to offset the possible effect of sanctions. As a result, in a scenario with no tax rate cut, this could increase the retail prices of petrol and diesel even further.
How has the revenue generated from taxing petroleum products changed over the years?
As a result of successive increases in excise duty between November 2014 and January 2016, the year-on-year growth rate of excise duty collections increased from 27% in 2014-15 to 80% in 2015-16. In comparison, the growth rate of sales tax collections was 6% in 2014-15 and 4% in 2015-16. The figure below shows the tax collections from the levy of excise duty and sales tax on petroleum products. From 2011-12 to 2017-18, excise duty and sales tax collections grew annually at a rate of 22% and 11%, respectively.
How is this revenue shared between centre and states?
Though central taxes are levied by the centre, it gets only 58% of the revenue from the levy of these taxes. The rest 42% is devolved to the states as per the recommendations of the 14th Finance Commission. However, excise duty levied on petrol and diesel consists of two broad components – (i) excise duty component, and (ii) road and infrastructure cess. Of this, only the revenue generated from the excise duty component is devolved to states. Revenue generated by the centre from any cess is not devolved to states.
The cess component was increased by Rs 2/litre to Rs 8/litre in the Union Budget 2018-19. However, this was done by reducing the excise duty component by the same amount, so as to keep the overall rate the same. Essentially this provision shifted the revenue of Rs 2/litre of petrol and diesel from states’ divisible pool of taxes to the cess revenue, which is entirely with the centre. This cess revenue is earmarked for financing infrastructure projects.
At present, of the Rs 19.5/litre excise duty levied on petrol, Rs 11.5/litre is the duty component, and Rs 8/litre is the cess component. Therefore, accounting for 42% share of states in the duty component, centre effectively gets a revenue of Rs 14.7/litre, while states get Rs 4.8/litre. Similarly, excise duty of Rs 15.3/litre levied on diesel consists of a cess component of Rs 8/litre. Thus, excise duty on diesel effectively generates revenue of Rs 12.2/litre for the centre and Rs 3.1/litre for states.
The National Education Policy (NEP) 2020 was released on July 30, 2020. It will replace the National Policy on Education, 1986. Key recommendations of the NEP include: (i) redesigning the structure of school curriculum to incorporate early childhood care and education, (ii) curtailing dropouts for ensuring universal access to education, (iii) increasing gross enrolment in higher education to 50% by 2035, and (iv) improving research in higher education institutes by setting up a Research Foundation. In this blog, we examine the current status of education in the country in view of some of these recommendations made by the NEP.
Universal access to Education
The NEP states that the Right to Education Act, 2009 has been successful in achieving near universal enrolment in elementary education, however retaining children remains a challenge for the schooling system. As of 2015-16, Gross Enrolment Ratio was 56.2% at senior secondary level as compared to 99.2% at primary level. GER denotes enrolment as a percent of the population of corresponding age group. Further, it noted that the decline in GER is higher for certain socio-economically disadvantaged groups, based on: (i) gender identities (female, transgender persons), (ii) socio-cultural identities (scheduled castes, scheduled tribes), (iii) geographical identities (students from small villages and small towns), (iv) socio-economic identities (migrant communities and low income households), and (v) disabilities. In the table below, we detail the GER in school education across: (i) gender, and (ii) socio-cultural identities.
Table 1: GER in school education for different gender and social groups (2015-16)
Level |
Male |
Female |
SC |
ST |
All |
Primary (I-V) |
97.9% |
100.7% |
110.9% |
106.7% |
99.2% |
Upper Primary (VI-VIII) |
88.7% |
97.6% |
102.4% |
96.7% |
92.8% |
Secondary (IX-X) |
79.2% |
81% |
85.3% |
74.5% |
80% |
Senior Secondary (XI-XII) |
56% |
56.4% |
56.8% |
43.1% |
56.2% |
Sources: Educational Statistics at Glance 2018, MHRD; PRS.
Data for all groups indicates decline in GER as we move from primary to senior secondary for all groups. This decline is particularly high in case of Scheduled Tribes. Further, we analyse the reason for dropping out from school education. Data suggests that the most prominent reason for dropping out was: engagement in domestic activities (for girls) and engagement in economic activities (for boys).
Table 2: Major reasons for dropping out (Class 1-12) for 2015-16
Reason for dropping out |
Male |
Female |
Child not interested in studies |
23.8% |
15.6% |
Financial Constraints |
23.7% |
15.2% |
Engage in Domestic Activities |
4.8% |
29.7% |
Engage in Economic Activities |
31.0% |
4.9% |
School is far off |
0.5% |
3.4% |
Unable to cop-up with studies |
5.4% |
4.6% |
Completed desired level/ Class |
5.7% |
6.5% |
Marriage |
|
13.9% |
Other reasons |
5.1% |
6.2% |
Note: Other reasons include: (i) timings of educational Institution not suitable, (ii) language/medium of Instruction used unfamiliar, (iii) inadequate number of teachers, (iv) quality of teachers not satisfactory, (v) unfriendly atmosphere at school. For girl students, other reasons also include: (i) non-availability of female teachers, (ii) non-availability of girl’s toilet.
Sources: Educational Statistics at Glance 2018, MHRD; PRS.
The NEP recommends strengthening of existing schemes and policies which are targeted for such socio-economically disadvantaged groups (for instance, schemes for free bicycles for girls or scholarships) to tackle dropouts. Further, it recommends setting up special education zones in areas with significant proportion of such disadvantaged groups. A gender inclusion fund should also be setup to assist female and transgender students in getting access to education.
Increasing GER in Higher Education to 50% by 2035
The NEP aims to increase the GER in higher education to 50% by 2035. As of 2018-19, the GER in higher education in the country stood at 26.3%. Figure 2 shows the trend of GER in higher education over the last few years. Note that the annual growth rate of GER in higher education in the last few years has been around 2%.
Figure 1: GER in Higher Education (2014-15 to 2018-19)
Sources: All India Survey on Higher Education, MHRD; PRS.
Table 3: Comparison of GER (higher education) with other countries
Country |
GER (2017-18) |
India |
25% |
Brazil |
51% |
China |
49% |
Indonesia |
36% |
South Africa |
22% |
Pakistan |
9% |
Germany |
70% |
France |
66% |
United Kingdom |
60% |
Sources: UNESCO; PRS.
The NEP recommends that for increasing GER, capacity of existing higher education institutes will have to be improved by restructuring and expanding existing institutes. It recommends that all institutes should aim to be large multidisciplinary institutes (with enrolments in thousands), and there should be one such institution in or near every district by 2030. Further, institutions should have the option to run open distance learning and online programmes to improve access to higher education.
Foundational literacy and numeracy
The NEP states that a large proportion of the students currently enrolled in elementary school have not attained foundational literacy and numeracy (the ability to read and understand basic text, and carry out basic addition and subtraction). It recommends that every child should attain foundational literacy and numeracy by grade three.
Table 4 highlights the results of the National Achievement Survey 2017 on the learning levels of students at Grade 3 in language and mathematics. The results of the survey suggest that only 57% students in Grade 3 are able to solve basic numeracy skills related to addition and subtraction.
Table 4: NAS results on learning level of Grade-3 students
Learning level (Grade 3) |
Percentage of students |
Ability to read small texts with comprehension (Language) |
68% |
Ability to read printed scripts on classroom walls such as poems, posters (Language) |
65% |
Solving simple daily life addition and subtraction problems with 3 digits (Mathematics) |
57% |
Analyses and applies the appropriate number operation in a situation (Mathematics) |
59% |
Sources: National Achievement Survey (2017) dashboard, NCERT; PRS.
To achieve universal foundational literacy and numeracy, the Policy recommends setting up a National Mission on Foundational Literacy and Numeracy under the MHRD. All state governments must prepare implementation plans to achieve these goals by 2025. A national repository of high-quality resources on foundational literacy and numeracy will be made available on government’s e-learning platform (DIKSHA). Other measures to be taken in this regard include: (i) filling teacher vacancies at the earliest, (ii) ensuring a pupil to teacher ratio of 30:1 for effective teaching, and (iii) training teachers to impart foundational literacy and numeracy.
Effective governance of schools
The Policy states that establishing primary schools in every habitation across the country has helped increase access to education. However, it has led to the development of schools with low number of students. The small size of schools makes it operationally and economically challenging to deploy teachers and critical physical resources (such as library books, sports equipment).
With respect to this observation, the distribution of schools by enrolment size can be seen in the table below. Note that, as of September 2016, more than 55% of primary schools in the country had an enrolment below 60 students.
Table 5: Distribution of schools by enrolment size
Strength (Grade) |
Below 30 |
31-60 |
61-90 |
91-120 |
121-150 |
151-200 |
More than 200 |
Primary schools (Class 1-5) |
28.0% |
27.5% |
16.0% |
10.3% |
6.3% |
5.6% |
6.4% |
Upper primary schools (Class 6-8) |
14.8% |
27.9% |
18.7% |
15.0% |
8.4% |
7.2% |
8.0% |
Upper primary schools (Class 1-8) |
5.7% |
11.6% |
13.0% |
12.1% |
10.4% |
13.4% |
33.8% |
Sources: Flash Statistics on School Education 2016-17, UDISE; PRS.
While nearly 80% primary schools had a library, only 1.5% schools had a librarian (as of September 2016). The availability of facilities is better in higher senior secondary schools as compared to primary or upper primary schools.
Table 6: Distribution of schools with access to physical facilities
Facilities |
Primary schools (Class 1-5) |
Upper primary schools (Class 1-8) |
Higher senior secondary |
Library |
79.8% |
88.0% |
94.4% |
Librarian |
1.5% |
4.5% |
34.4% |
Playground |
54.9% |
65.5% |
84.3% |
Functional computer |
4.4% |
25.2% |
46.0% |
Internet connection |
0.9% |
4.2% |
67.9% |
Sources: Flash Statistics on School Education 2016-17, UDISE; PRS.
To overcome the challenges associated with development of small schools, the NEP recommends grouping schools together to form a school complex. The school complex will consist of one secondary school and other schools, aanganwadis in a 5-10 km radius. This will ensure: (i) adequate number of teachers for all subjects in a school complex, (ii) adequate infrastructural resources, and (iii) effective governance of schools.
Restructuring of Higher Education Institutes
The NEP notes that the higher education ecosystem in the country is severely fragmented. The present complex nomenclature of higher education institutes (HEIs) in the country such as ‘deemed to be university’, ‘affiliating university’, ‘affiliating technical university', ‘unitary university’ shall be replaced simply by 'university'.
According to the All India Survey on Higher Education 2018-19, India has 993 universities, 39,931 colleges, and 10,725 stand-alone institutions (technical institutes such as polytechnics or teacher training institutes).
Table 7: Number of Universities in India according to different categories
Type of university |
Number of universities |
Central University |
46 |
Central Open University |
1 |
Institutes of National Importance |
127 |
State Public University |
371 |
Institution Under State Legislature Act |
5 |
State Open University |
14 |
State Private University |
304 |
State Private Open University |
1 |
Deemed University- Government |
34 |
Deemed University- Government Aided |
10 |
Deemed University- Private |
80 |
Total |
993 |
Sources: All India Survey on Higher Education 2018-19; PRS.
The NEP recommends that all HEIs should be restructured into three categories: (i) research universities focusing equally on research and teaching, (ii) teaching universities focusing primarily on teaching, and (iii) degree granting colleges primarily focused on undergraduate teaching. All such institutions will gradually move towards full autonomy - academic, administrative, and financial.
Setting up a National Research Foundation to boost research
The NEP states that investment on research and innovation in India, at only 0.69% of GDP, lags behind several other countries. India’s expenditure on research and development (R&D) in the last few years can be seen in the figure below. Note that the total investment on R&D in India as a proportion of GDP has been stagnant at around 0.7% of GDP. In 2018-19, the total expenditure on R&D in India was Rs 1,23,848 crore. Of this, Rs 72,732 crore (58%) of expenditure was by government, and the remaining (42%) was by private industry.
Figure 2: R&D Expenditure in India (2011-12 to 2018-19)
Sources: S&T Indicators Table 2019-20, Ministry of Science and Technology, March 2020; PRS.
Figure 3: Comparison of R&D expenditure in India with other countries (2017)
Sources: S&T Indicators Table 2019-20, Ministry of Science and Technology, March 2020; PRS.
To boost research, the NEP recommends setting up an independent National Research Foundation (NRF) for funding and facilitating quality research in India. The Foundation will act as a liaison between researchers and relevant branches of government as well as industry. Specialised institutions which currently fund research, such as the Department of Science and Technology, and the Indian Council of Medical Research, will continue to fund independent projects. The Foundation will collaborate with such agencies to avoid duplication.
Digital education
The NEP states that alternative modes of quality education should be developed when in-person education is not possible, as observed during the recent pandemic. Several interventions must be taken to ensure inclusive digital education such as: (i) developing two-way audio and video interfaces for holding online classes, and (ii) use of other channels such as television, radio, mass media in multiple languages to ensure reach of digital content where digital infrastructure is lacking.
In this context, we analyse: (i) the availability of computer and internet across households in India, and (ii) ability to use computer or internet by persons in the age group of 5-14. As of 2017-18, the access to internet and computer was relatively poor in rural areas. Only 4.4% of rural households have access to a computer (excludes smartphones), and nearly 15% have access to internet facility. Amongst urban households, 42% have access to internet.
Table 8: Access to Computer and Internet across households (2017-18)
Access to ICT |
Rural |
Urban |
Overall |
Households having computer |
4.4% |
23.4% |
10.7% |
Households having internet facility |
14.9% |
42.0% |
23.8% |
Note: Computer includes desktop, laptop, notebook, tablet. It does not include smartphone.
Sources: Household Social Consumption on Education (2017-18), Ministry of Statistics and Programme Implementation, July 2020; PRS.
Table 9: Ability to use Computer and Internet across persons in the age group 5-14 (2017-18)
Ability to use ICT |
Rural |
Urban |
Overall |
Ability to use computer |
5.1% |
21.3% |
9.1% |
Ability to use internet |
5.1% |
19.7% |
8.8% |
Note: Ability to use computer means to be able to carry out any of the tasks such as: (i) copying or moving a file/folder, (ii) sending emails, (iii) transferring files between a computer and other devices, among others. Ability to use internet means to be able to use the internet browser for website navigation, using e-mail or social networking applications.
Sources: Household Social Consumption on Education (2017-18), Ministry of Statistics and Programme Implementation, July 2020; PRS.
Public spending on education to be increased to 6% of GDP
The recommendation of increasing public spending on Education to 6% of GDP was first made by the National Policy on Education 1968 and reiterated by the 1986 Policy. NEP 2020 reaffirms the recommendation of increasing public spending on education to 6% of GDP. In 2017-18, the public spending on education (includes spending by centre and states) was budgeted at 4.43% of GDP.
Table 10: Public spending on Education (2013-2018)
Year |
Public expenditure (Rs crore) |
% of GDP |
2013-14 |
4,30,879 |
3.84% |
2014-15 |
5,06,849 |
4.07% |
2015-16 |
5,77,793 |
4.20% |
2016-17 |
6,64,265 |
4.32% |
2017-18 |
7,56,945 |
4.43% |
Sources: 312th Report, Standing Committee on Human Resource Development, March 2020; PRS.
Figure 4: Comparison of public spending on Education in India with other countries as % of GDP (2015)
Sources: Educational Statistics at Glance 2018, MHRD; PRS.
In the figure below, we look at the disparities within states in education spending. In 2020-21, states in India have allocated 15.7% of their budgeted expenditure towards education. States such as Delhi, Rajasthan, and Maharashtra have allocated more than 18% of their expenditure on Education for the year 2020-21. On the other hand, Telangana (7.4%), Andhra Pradesh (12.1%) and Punjab (12.3%) lack in spending on education, as compared to the average of states.
Figure 5: Budgeted allocation on Education (2020-21) by states in India
Note: AP is Andhra Pradesh, UP is Uttar Pradesh, HP is Himachal Pradesh and WB is West Bengal.
Sources: Analysis of various state budget documents; PRS.
For a detailed summary of the National Education Policy, see here.