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Does risk aversion cause diminishing marginal utility, or vice versa? 
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#1
Oct113, 09:58 AM

P: 1,583

Let A be the set of possible states of the world, or possible preferences a person could have. Let G(A) be the set of "gambles" or "lotteries", i.e. the set of probability distributions over A. Then each person would have a preferred ordering of the states in A, as well as a preferred ordering of the lotteries in G(A). The von NeumannMorgenstern theorem states that, assuming your preference ordering over G(A) obeys certain rationality axioms, your preferences can be described by a utility function u: A → ℝ. (This function is unique up to multiplication of scalars and addition of constants.) That means that for any two lotteries p and q in G(A), you prefer L1 to L2 if and only if the expected value of u under L1 is greater than the expected value of u under L2. In other words, you maximize the expected value of the utility function.
Now just because you maximize the expected value of your utility function does not mean that you maximize the expected value of actual things like money. After all, people are often risk averse; they say "a bird in the hand is worth two in the bush". Risk aversion means that you value a gamble less than expected value of the money you'll gain. If we express this notion in terms of the von NeumannMorgenstern utility function, we get the following result: a person is risk averse if and only if their utility function is a concave function of your money, i.e. the extent to which you're risk averse is the same as the extent to which you have a diminishing marginal utility of money. (See page 13 of this PDF.) My question is, which direction does the causation run? Do the values of the von NeumannMorgenstern utility function reflect the intensity of your preferences, and is risk aversion due to discounting the preferences of future selves who are welloff compared to the preferences of future versions of yourself who are poorer and thus value money more (as Brad Delong suggests here)? Or does the causation run the other way: does your tolerance for risk determine the shape of your utility function, so that the von NeumannMorgenstern utility function tells you nothing about the relative intensity of your preferences? Any help would be greatly appreciated. Thank You in Advance. 


#2
Oct113, 06:35 PM

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Is it really appropriate to call this risk aversion? It is risk aversion in terms of your bank account numbers, but not in terms of your utility*. A concave money>utility function is very natural: if you have no money at all, life is hard. If you have some money, you gain a lot  like a bed and a proper food supply. If you have 1000 times that money, the bed can be more comfortable, but that is not worth 1000 times the simple bed.
*actually, humans don't follow the required rationality axioms. There is another type of risk aversion: risk aversion within the utility function. Let's assume you have a welldefined, known utility function, so we can express all bets in terms of their utility. You start with an account of "1" utilityunit and you can use this to participate in bets (negative values are not allowed). I will offer you two bets in series: (A) Give away 1 unit of utility, gain 11 with 10% probability and 0 with 90% probability. afterwards: (B) Give away 1 unit of utility, gain 100 with 90% probability and 0 with 10% probability. With that knowledge, you will reject (A) even if it has a positive expectation value  the risk that you lose, and cannot participate in B any more, is too large. Now consider a modified setup: I don't tell you what (B) will be. Do you accept (A)? If you expect a better bet for (B) (where you need some probability distribution for bets I could offer), it is good to be riskaverse, and reject (A). 


#3
Oct113, 07:02 PM

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P: 15,201

You have a bit of a mapterritory inversion going on here. The map is not the territory (Alfred Korzybski). By asking which is cause, which is effect, you are confusing the map for the territory. The concepts of a utility function and risk aversion are parts of the same map. Cause and effect  that's asking about the territory. Note also that this map is not perfect. People are not rational. The same people who buy lottery tickets are also unwilling to invest their hardearned money in a place where it might grow. The same people who drop tens of thousands of dollars for a frivolous night on the town irrationally pinch pennies elsewhere. 


#4
Oct113, 08:57 PM

P: 1,583

Does risk aversion cause diminishing marginal utility, or vice versa?



#5
Oct113, 09:13 PM

P: 1,583

The fundamental issue is this: do people have intensities of preference that determine their attitude toward risk? Or do people have attitudes toward risk that makes it appear as if they have certain intensities of preference? 


#6
Oct213, 04:54 AM

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There is no universal axiom "money is good to have", and there is no prior reason to assume that utility is linear with anything. I can keep track of the logarithm of my money, or an exponential function. Why should a utility function be proportional to some specific way to keep track of money? The Allais paradox is something different  and I think psychological effects shouldn't be neglected there (if you pick 1B, you will really hate that decision in 1% of the cases). 


#7
Oct613, 08:30 AM

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#8
Oct613, 08:37 AM

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P: 12,037

If you consider the risk to lose something as negative, you already attached a utility to the object you might lose. 


#9
Oct613, 08:44 AM

P: 1,583

Here is another way to phrase my question: if you consider preferences over outcomes, you can only define a utility function that's unique up to a monotonous transformation. But if you also consider preferences over lotteries, then you can define a utility function that's unique up to affine transformation, i.e. if two functions u and v represent the same set of preferences over lotteries, then v = a + bu for some constants a and b. What is the reason for that? Is it because your preferences over lotteries reveal more information about your preferences over outcomes, specifically the relative intensities of those preferences? Or is nothing at all being revealed about intensity of preference, with the new information just being about your preferences concerning lotteries?



#10
Oct613, 08:52 AM

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#11
Oct613, 10:25 AM

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P: 12,037

Define the utility of a to be some arbitrary value A and the utility of c to be some arbitrary value C with C>A. Now consider a bet: you can either get b with 100% probability, or c with a probability of p and a with a probability of 1p. Choose p in such a way that you are indifferent between both options. This allows to assign b the utility B=pC+(1p)A. You can do the same for every set of 3 possible outcomes to fix the utility values of every outcome, and the only freedom is the initial choice of the utilities for two outcomes (here: A and C). 


#12
Oct813, 02:14 AM

P: 1,583

For instance, suppose that a was "getting 0 dollars", b was "getting 5 dollars", and c was "getting 10 dollars". And suppose that you're indifferent between getting 5 dollars on the one hand, and having a 75% of getting 10 dollars and a 25% chance of getting 0 dollars on the other hand. Then B would equal .25A + .75C. One way to interpret that is to say that going from 5 dollars to 10 dollars matters one third as much to you than going from 0 dollars to 5 dollars. But couldn't the explanation instead be that you value the 5 dollars more because it's a "sure thing", and you prefer certain outcomes to uncertain outcomes? 


#13
Oct813, 04:47 AM

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P: 15,201

Now you are asking better questions. You are essentially asking whether expected utility theory has any utility at all. Economists have found multiple issues with expected utility theory. Some, most notably Matthew Rabin, have gone so far as to say that it has no utility whatsoever. Expected utility is not just pining for the fjords. It is, in Rabin's words, an exhypothesis.
Rabin, Matthew. "Risk aversion and expected‐utility theory: A calibration theorem." Econometrica 68, no. 5 (2000): 12811292. A better view is that the expected utility hypothesis is a simplification of reality. Physicists and engineers do this all the time. Ohm's law. Newton's laws of motion. Sometimes the magic works, sometimes it doesn't. The problem with Rabin's criticism is that the magic does work sometimes. There does exist some economic space where the hypothesis is valid. The problem with rejecting his criticism is that the magic oftentimes doesn't work. The space where the theory is valid is bounded. It is not universally true. 


#14
Oct813, 07:56 AM

P: 1,583

1. Assuming the von NeumannMorgenstern axioms are right, the shape of the von NeumannMorgenstern utility function reflects the relative intensities of your preferences over certain (i.e. sure) outcomes, and that determines your preferences concerning uncertain outcomes, via the expected value of the utility function. 2. Assuming the von NeumannMorgenstern axioms are right, the shape of the von NeumannMorgenstern utility function tells you absolutely nothing about the relative intensities of your preferences. Instead, it summarizes your preferences concerning uncertain outcomes. That is why preferences concerning uncertain outcomes can be so easily gleamed from calculating the expected value of the utility function. 


#15
Jan314, 09:49 AM

P: 12

lugita15, I think your question is really interesting but the discussion has lost me at various points.
I've always seen 'risk aversion' and 'diminishing marginal utility' (in the context of VNM) as two pieces of language to describe the same phenomenon, so at first it didn't strike me as a well framed question. Could you elaborate a little on your post #9, and about linear and affine transformations? I think you guys have a very good grasp of maths here and I'm not so good so go easy! 


#16
Jan314, 02:10 PM

P: 1,583

1. The values of the von NeumannMorgenstern utility function u genuinely reflect the intensity of a person's preferences for the various states in A. So for instance, if u(c)u(b) = 3(u(b)u(a)) for three states a, b, and c in A, then that means that the person prefers c to b 3 times as much as they prefer b to a. And a person's preferences concerning the lotteries in G(A) are merely a reflection of the intensities of their preferences over the states in A. In other words, people tend to maximize the expected value of their happiness, taking their intensity of preferences into account. 2. The values of the von NeumannMorgenstern utility function u does not reflect the intensity of a person's preferences. Instead, it reflects a person's preferences concerning risk, for instance the fact that they prefer a sure outcome to a risky outcome, even if it means getting a lower payout. The only reason that people tend to maximize the expected value of their von NeumannMorgenstern utility function is that the values of that function are determined by their inherent preferences concerning the lotteries in G(A). So to summarize, the question is whether intensity of preferences determine preferences for lotteries and the values of the vnM utility function, or whether inherent attitudes toward risk independent of intensity of preferences determine the values of the vNMutility function. 1. Salad 2. Pretzel 3. French Fries 4. Pretzel Given this information, how would you make a utility function for me? Well, we can let u(Salad) = 1, u(Pretzel) = 2, u(French Fries) = 3, and u(Pizza) = 4. This function satisfies the criterion that u(x) > u(y) if and only if I prefer x to y. But the thing is, this is not the only function that satisfies this criterion; here's another one: v(Salad) = 2, v(Pretzel) = 343, v(French Fries) = 500, and v(Pizza) = 1 trillion. So which one is my utility function, u or v? Well, in some sense they both are, because they both satisfy that criterion. The values of v may look nothing like the values of u, but the important thing is that v preserves the ordering of values of that u has. The fancy way of saying that is that v is a monotonic transformation of u. So the conclusion is that if the only information you have is the ordering of preferences over the states in A, then you can only define the utility function upto a monotonic transformation, which means that if you construct a utility function u for a given preference ordering, someone else can construct a utility function v, a monotonic transformation of u, that will work just as well. Or in more technical language, ordinal utility functions (functions constructed from a preference ordering over A) are unique only upto a monotonic transformation. Now let's consider the vNM case. The von NeumannMorgenstern theorem states that if a person's preferences over G(A) satisfy certain conditions, then there exists a function u from A to R such that the person tends to maximize the expected value of u. Just like in the case of ordinal utility functions, u is not the only function which satisfies this criterion. But this time, if you just do any arbitrary monotonic transformation of u, it won't necessarily satisfy the criterion. There are only two operations you can perform on u while maintaining the criterion. 1. Multiplying u by a positive constant 2. Adding a constant to u. So that means that if u satisfies the criterion, only functions of the form a + bu, known as affine transformations of u, will satisfy the criterion. To put it in technical language, von NeumannMorgenstern utility functions are unique up to affine transformations, as opposed to ordinal functions which are only unique up to monotonic transformations. So a given person has a lot of ordinal utility functions representing them, but has much fewer vNMutility functions representing them. What that means in practical terms is that a vNMutility function conveys more information than an ordinal utility function (which only conveys the preference ordering over A). Specifically, if u and v are two vNMutility functions for the same person, then (u(z)u(y))/(u(y)u(x)) = (v(z)v(y))/(v(y)v(x)). (This follows from the fact that v must equal a + bu for some constants a and b.). So that number is independent of what vNMutility function you use, so the question is, what information does that number convey? Does it show how much you prefer z to y compared to how much you prefer y to x? (That would mean that the vNM utility function reflects the intensities of your preferences over A.) Or does it reflect the fact prefer a 100% chance of getting y compared to a certain probability of getting x and a certain probability of getting z, because you value a "sure thing" rather than taking too much risk? (That would mean that the vNM utility function reflects your inherent preference ordering over G(A).) Whew! I didn't intend to make this post so long, so tell me if you have any questions. 


#17
Jan514, 04:08 PM

P: 12

Jeez. I just started reading 'Theory of Games and Economic Behaviour' to get some clarity on this  it's fun but quite dense reading.
So am I right in thinking monotonic are the weakest type of transformations, in the sense that they preserve the least amount of information from the original function (just the ordering)? Also, am I right in thinking VNM utility functions represent cardinal utility? In the linguistic sense, it strikes me that risk aversion CAUSES the diminishing marginal utility. After all, risk aversion is a property of the agent and diminishing marginal utility is a property of the thing being valued. Taking for granted that the agent's feelings are the most proximate causes of utility functions and their shapes, this must be true, but maybe I am missing the point. 


#18
Jul1214, 08:16 AM

P: 6

For risk aversion read fear. Yes it does lead to diminishing returns and for the obvious reason. I have been a victim of the 'Is it safe?' ('Marathon Man,' film quote) mentality, where people are not willing to take risks that boil down to no risks at all. New ideas are lost because of this but are a sign of awareness and aging as the old are more aware of what they have to lose, where the young, having nothing are more aware of what they have to gain (Young here means coming from nothing, not necessarily physical age, although I'm sure you can see the analogy).



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