BECE 141 Solved Assignment 2022-23

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BECE 141

ECONOMICS OF HEALTH AND EDUCATION

Programme: BAG/2022/2022-23

Course Code: BECE 141

Max. Marks: 100

BECE 141 Solved Assignment

Answer all the questions

A. Long Answer Questions (word limit-500 words) 2 × 20 = 40 marks

1) Derive the growth equation showing the conditions under which higher growth can be realised.

In theory, any kind of organism could take over the Earth just by reproducing. For instance, imagine that we started with a single pair of male and female rabbits. If these rabbits and their descendants reproduced at top speed ("like bunnies") for 777 years, without any deaths, we would have enough rabbits to cover the entire state of Rhode Island^{1,2,3}1,2,3start superscript, 1, comma, 2, comma, 3, end superscript. And that's not even so impressive – if we used E. coli bacteria instead, we could start with just one bacterium and have enough bacteria to cover the Earth with a 111-foot layer in just 363636 hours^44start superscript, 4, end superscript!

As you've probably noticed, there isn't a 111-foot layer of bacteria covering the entire Earth (at least, not at my house), nor have bunnies taken possession of Rhode Island. Why, then, don't we see these populations getting as big as they theoretically could? E. coli, rabbits, and all living organisms need specific resources, such as nutrients and suitable environments, in order to survive and reproduce. These resources aren’t unlimited, and a population can only reach a size that match the availability of resources in its local environment.

Population ecologists use a variety of mathematical methods to model population dynamics (how populations change in size and composition over time). Some of these models represent growth without environmental constraints, while others include "ceilings" determined by limited resources. Mathematical models of populations can be used to accurately describe changes occurring in a population and, importantly, to predict future changes.

Modeling population growth rates

To understand the different models that are used to represent population dynamics, let's start by looking at a general equation for the population growth rate (change in number of individuals in a population over time):

\quad \quad\quad\quad\quad\quad\quad\quad \quad\quad\quad\dfrac{dN}{dT} = rNdTdN​=rNstart fraction, d, N, divided by, d, T, end fraction, equals, r, N

In this equation, dN/dTdN/dTd, N, slash, d, T is the growth rate of the population in a given instant, NNN is population size, TTT is time, and rrr is the per capita rate of increase –that is, how quickly the population grows per individual already in the population. (Check out the differential calculus topic for more about the dN/dTdN/dTd, N, slash, d, T notation.)

If we assume no movement of individuals into or out of the population, rrr is just a function of birth and death rates. You can learn more about the meaning and derivation of the equation here: 

Exponential growth

Bacteria grown in the lab provide an excellent example of exponential growth. In exponential growth, the population’s growth rate increases over time, in proportion to the size of the population.

Let’s take a look at how this works. Bacteria reproduce by binary fission (splitting in half), and the time between divisions is about an hour for many bacterial species. To see how this exponential growth, let's start by placing 100010001000 bacteria in a flask with an unlimited supply of nutrients.

·         After 111 hour: Each bacterium will divide, yielding 200020002000 bacteria (an increase of 100010001000 bacteria).

·         After 222 hours: Each of the 200020002000 bacteria will divide, producing 400040004000 (an increase of 200020002000 bacteria).

·         After 333 hours: Each of the 400040004000 bacteria will divide, producing 800080008000 (an increase of 400040004000 bacteria).

2) Analyse the trend in the public financing of education in India over the period 1980s to 2010s. B. Medium Answer Questions (word limit-250 words) 3 × 10 = 30 marks
3) Delineate the four characteristics of healthcare services.
4) Discuss the method of ‘Impact Evaluation (IE)’ for evaluating the benefits from health projects.
5) Present an overview of the early contributors to the concept of ‘human capital’.
C. Short Answer Questions (word limit 100 words) 2 × 3 × 5 = 30 marks
6) Differentiate between:
(a) Healthcare Market and Markets for other Goods.

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(b) Cost Effective Analysis (CEA) and Cost Utility Analysis (CUA).
(c) Social Marginal Cost and Social Marginal Benefit.
7) Write short notes on the following.
(a) Health Equity.
(b) Linkage between Health and Education.
(c) Merit Good.

IGNOU Assignment Status 2022-23

BECE 141 ECONOMICS OF HEALTH AND EDUCATION Solved Assignment 2022-23: Those students who had successfully submitted their Assignments to their allocated study centres can now check their Assignment Status. Alongside assignment status, they will also checkout their assignment marks & result. All this is often available in a web mode. After submitting the assignment, you'll check you IGNOU Assignment Status only after 3-4 weeks. it'd take 40 days to declare.

BECE 141 Solved Assignment 2022-23: Those students who had successfully submitted their Assignments to their allocated study centres can now check their Assignment Status. Along with assignment status, they can also checkout their assignment marks & result. BECE 141 Solved Assignment 2022-23 All this is available in an online mode. After submitting the assignment, you can check you IGNOU Assignment Status only after 3-4 weeks. It might take 40 days to declare.

BECE 141  Solved Assignment 2022-23 Here the students can check their IGNOU Assignment Status, marks, result or both the sessions i.e; June & December.

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