Inflation Calculator

Inflation Calculator

Modify the values and click the calculate button to use

Inflation Calculator with U.S. CPI Data

Calculates the equivalent value of the U.S. dollar in any month from 1913 to 2025. Calculations are based on the average Consumer Price Index (CPI) data for all urban consumers in the U.S.

in =?in


Forward Flat Rate Inflation Calculator

Calculates an inflation based on a certain average inflation rate after some years.

with inflation rate after years  = ?


Backward Flat Rate Inflation Calculator

Calculates the equivalent purchasing power of an amount some years ago based on a certain average inflation rate.

with inflation rate  = ? years  ago


Related Interest Calculator | Loan Calculator | Investment Calculator


The Inflation Calculator utilizes historical Consumer Price Index (CPI) data from the U.S. to convert the purchasing power of the U.S. dollar in different years. Simply enter an amount and the year it pertains to, followed by the year the inflation-adjusted amount pertains to.

There is also a Forward Flat Rate Inflation Calculator and Backward Flat Rate Inflation Calculator that can be used for theoretical scenarios to determine the inflation-adjusted amounts given an amount that is adjusted based on the number of years and inflation rate. Historically, inflation rates hover around 3% in the U.S. and many other developed countries, making it a safe assumption. However, feel free to adjust as needed.

Historical Inflation Rate for the U.S.

In the United States, the Bureau of Labor Statistics publishes the Consumer Price Index (CPI) every month, which can be translated into the inflation rate. The following is the listing of the historical inflation rate for the United States (U.S. dollar) since it is available in 2013.

Inflation Rate (%)-15-10-505101519251950197520002025

What is Inflation?

Inflation is defined as a general increase in the prices of goods and services, and a fall in the purchasing power of money. Inflation can be artificial in that the authority, such as a central bank, king, or government, can control the supply of the money in circulation. Theoretically, if additional money is added into an economy, each unit of money in circulation will have less value. The inflation rate itself is generally conveyed as a percentage increase in prices over 12 months. Most developed nations try to sustain an inflation rate of around 2-3% through fiscal and monetary policy.

Hyperinflation

Hyperinflation is excessive inflation that rapidly erodes the real value of a currency. It usually occurs when there is a significant increase in money supply with little to no change in gross domestic product. Examples of hyperinflation can be seen in the countries of Ukraine in the early 1990s and Brazil from 1980 until 1994, where they endured long periods of hyperinflation and their currencies became essentially valueless. These hyperinflated economies caused terrible hardships for their people; Ukrainians and Brazilians had to cope by using stabilized foreign currencies and stocking up on finite resources that could retain value, such as gold. Another well-known example of hyperinflation was Germany in the 1920s when the government took stimulus measures such as printing money to pay for WWI. This happened at the same time as Germany was required to pay 132 billion marks in war reparations. This resulted in economic activity crumbling and shortages. With too much money and not enough goods and services, prices doubled every 3 days! The Papiermark, the German currency at the time, lost so much value that people were using it in place of firewood to heat their homes. The effects of hyperinflation were so severe that many people lived in poverty or fled the country.

While hyperinflation can cause immense hardship on an economy, it is considered healthy to have moderate levels of inflation from year to year. Because money will have less value in the future, there is an incentive for consumers to spend instead of stashing it away, and this incentive plays a key role in ensuring a healthy economy.

Deflation

While inflation is not entirely good or bad depending on whether it is moderate or severe, deflation, the opposite of inflation, is seldom welcome in any economy. Deflation is defined as the general reduction of prices for goods and services. In such a scenario, consumers are not incentivized to spend since their money is forecasted to have more purchasing power in the future. This puts the brakes on and can even reverse what should be upward trending economies. The Great Depression came with something called the deflationary spiral. The theory behind a deflationary spiral is that as prices fall for goods and services, there is less profit. With less profit comes less spending. This, in turn, leads to even lower prices for goods and services, which forms a negative loop that can be immensely difficult to recover from.

Why Inflation Occurs?

Macroeconomic theories try to explain why inflation occurs and how best to regulate it. Keynesian economics, which served as the standard economic model in developed nations for most of the twentieth century and is still widely used today, says that when there are gaping imbalances between the supply and demand of goods and services, large-scale inflation or deflation can occur.

  • Cost-Push inflation—Take, for example, the cost of oil going up due to political turmoil; because so many goods and services depend on oil, their prices will also increase to account for the higher costs associated with running a business that involves oil as an expense. This is called cost-push inflation.
  • Demand-Pull inflation—This sort of inflation happens when demand becomes higher than an economy's ability to produce. Because there are not enough goods and services going around for everyone, higher amounts of currency are more readily exchanged for them.
  • Built-in inflation—Built-in inflation, sometimes called hangover inflation, is a type of inflation that is a result of past events, the effects of which persist in the present. It is strongly related to cost-push inflation and demand-pull inflation, as the three types of inflation are the major determinants of the current inflation rate. It is affected by both subjective and objective factors that generally result in the persistence of inflation through factors such as inflationary expectations and the price/wage spiral.

The Monetarists

A group of economists (led by Milton Friedman) named the Monetarists believed that money supply is the main player in inflation, not markets. For instance, the Federal Reserve (the central bank in the U.S.) can print more money to increase supply or sell Treasury bills to decrease it. Public institutions play a major role in stabilizing their respective currencies through monetary policy. Their ideals are based on the Quantity Theory of Money, which states that changes in money supply will change the value of the currency. The Equation of Exchange best illustrates this:

MV = PY

Where:
M = money supply
V = velocity of money, defined as how many times a unit of currency is involved in transfers per year
P = price level
Y = economic output of goods and services

In the Equation of Exchange, total spending (MV) is equal to total sales revenue (PY). V and Y are generally considered constant by economists; the number of transactions a currency goes through a year and the total economic output are certainly less volatile than the money supply or price level. By assuming V and Y to be relatively constant, what's left are M and P, which leads to the Quantity Theory of Money, which states that the money supply is directly proportional to the value of the currency.

In reality, a mixture of both Keynesian and Monetarist policies is used. Although Keynesians and Monetarists have their differences, they do admit that there are necessities from the opposing side. For instance, Keynesians do not completely disregard the role that money supply has in economies, just as Monetarists do not completely disregard manipulating the demand for goods and services to fix inflation.

How is Inflation Calculated?

In the U.S., the Department of Labor is responsible for calculating inflation from year to year. Usually, a basket of goods and services on the market are put together and the costs associated with them are compared at various periods. These figures are then averaged and weighted using various formulas and the end result in the U.S. is a number called the Consumer Price Index (CPI).

As an example, to find the inflation from January 2016 to January 2017, first, look up the CPI for both months. Historical CPI data can be found on The Bureau of Labor Statistics website:

Jan. 2016: 236.916
Jan. 2017: 242.839

Calculate the difference:

242.839 - 236.916 = 5.923

Calculate the ratio of this difference to the former CPI:

5.923
236.916
 = 2.5%

The inflation from January 2016 to January 2017 was 2.5%. When the CPI for the former period is greater than the latter, the result is deflation rather than inflation.

Problems with Measuring Inflation

While the example given above to calculate CPI might portray inflation as a simple process, in the real world, measuring the true inflation of currencies can prove to be quite difficult.

  • Take, for instance, the basket of goods and services used to determine inflation from period to period. It is hard to distinguish whether the prices for these goods and services fluctuate based on changes in quality or inflation. For example, did the price of a computer really inflate that much, or was it due to new breakthrough technology that made them cost more?
  • Dramatic rises or falls in the prices of certain things can destabilize the situation. For instance, hikes in oil prices will lead to higher inflation, but this is temporary and may create false impressions of higher inflation.
  • People who are part of different demographics can be affected differently by inflation rates. As an example, high oil prices create higher inflation for truck drivers but affect stay-at-home mothers to a lesser degree.
  • While CPI is the most widely used index to determine inflation, there are others for more specific purposes. CPI was previously known as the Harmonized Index of Consumer Prices (HICP) in the European Union. There is also an adjusted version of CPI called CPIH that includes housing costs such as mortgage interest payments. CPIY is essentially CPI without indirect taxes, such as value-added tax (VAT) and excise duty, and is useful for determining inflation without tax increases that last just a year. Excise duty is a tax charged on goods produced within a country. CPILFENS, the Consumer Price Index for All Urban Consumers Less Food and Energy, is considered a less volatile version of CPI because it doesn't have food and energy in its own basket. Food and energy can be very volatile in nature and can result in an inaccurate representation of inflation. For instance, the weather has drastic impacts on food supply, and in turn, food prices.

How to Beat Inflation?

Inflation is most impactful to people who hold large amounts of liquid cash sitting idle. Using the inflation rate of 2.5%, a checking account (that doesn't earn interest) with $50,000 will result in a loss in the real value of $1,250 by the period's end. It can be seen that when it comes to protecting money from inflation, whether moderate or severe, it is generally best to do something other than storing it somewhere that doesn't earn interest. Inflation is the main reason why the conventional advice peddled by financial gurus is not to save cash but to spend or invest instead. In a world where moderate inflation is the norm, there is little choice but to spend, invest, or be willing to accept a degree of loss due to inflation.

Unfortunately, there is no perfect hedge against inflation. It is common for people to purchase real estate property, stock, funds, commodities, TIPS, art, antiques, and other assets to hedge against inflation. All these investment options have pros and cons. Investors usually own more than one type of these assets to manage risk. Commodities and TIPS are discussed more often because they are closely related to inflation. However, they are not necessarily the best investment hedge against inflation.

Commodities

Investing in commodities, which include gold, silver, oil, copper, and many raw materials or agricultural products, is one of the popular ways through which a person can protect themselves from inflation because commodities are items that have intrinsic value. In addition, during times of high inflation, as money loses its value, demand for commodities can increase their value. For many centuries, gold was traditionally viewed as an effective resource with which a person could hedge against inflation because it is a finite resource with value that can be stored easily. While other precious metals can be used to hedge against inflation, gold is the most popular.

TIPS

In the U.S., there are financial instruments called TIPS, or Treasury Inflation-Protected Securities. These are bonds issued by the U.S. Treasury that specifically provide protection against inflation. Because the principal of a TIPS is proportional to inflation, as measured by indices such as the CPI, TIPS acts as a relatively effective hedge against periods of high inflation. They usually only make up very small portions of people's portfolios, but anyone seeking extra protection can choose to allocate more room in their portfolio toward TIPS. Because they are largely unrelated to stocks, which are usually the bulk of portfolios, they are also great for diversification purposes. The maturation of TIPS can also be extended to earn term premiums, without risk of inflation, unlike other bonds. Other countries also offer similar inflation-indexed bonds, such as the United Kingdom's index-linked gilt, Mexican Udibonos, or German Bund index.

Financial Fitness & Health Math Other

Tham khảo XS Kết Quả để xem kết quả xổ số.

Xem lịch âm dương tại Xem Lịch Âm.

Xem bong da Xem bong da 247.

Công cụ tính toán https://calculatorss.us.

Tin tức game https://gamekvn.club.

YyNSXL 8QKEhurwRYymMezj4ip4eMEbybJJeXkoAiQ6nuc4oPSIXLxHBO6aBlsG4jRJJfuYvmck2ZcROp4zMRkc73RQnXFTrK3EXNW9u1mh9oaoxvuk0DTfXEXmxPANqjBwUQp6CRGNWXvieEdlamNDE55Mbf0T6rGnzZvlsNVxA4f4gJj3hbxucQqgTfnbQPIcJnWckicw4gR8SmnbVr2qUK3ocGeupjDMpZ6NOtgU6Wwz0yiRxUPbPrh2z9gTlIzwQSGK8F7vkyVN AXJcA0uaoQidHvfkRzWGXh5ioUSCSqrwZpoYTFmXRHCB1v3sijem3J1zUZpTGdRaqONgDdyUMhi7A7SK1Im2YRtc3Ua Mh oLRXrMYxwTLIUb7ItWcsVQAfnV6 cUzKIxeyA6UfTXNgu2PL34SZxIMQFkgBNXpaBFOhJnYRmfI4meupKmjxXSSgxrtbt5nAYurkqRq5cNllpJWrQiLQLpgVGSuxbWdgQiAvUK1RCcnFkEwZVVGbznMhTybmYzlyiBhfs4qee0m1AmBAS2IQji8UYAo3feoOV0f0gFVsuZPrYdRERKGx3dZDS2NkTqqsI9YJvfxh6qSYmtUUbvWOoQGL06y0uPe76MolqcmZofMoDgR2h2CgOVUi34TF6x6HFfC5AUdW8HAQQJEGSWmIpzjvbGuC6cR 59Ofy PH7wgQjnwN3YnrhlBNX5xh15sVnH1scPviuEZMqO7pvFJ2C0rcOQnGHViWs8Krr9ldi5e L9AqSaTwWnXZlyuBiTtz2U6kS J2TxJ5QpbsIr79PFOIb5nT3izKxxBrMx71WaqTYp2xH3Aua0Re56yg91cjJxAC8BVJX6P4PlcOgCPnULwv DlNs5Uyf6S5Vx2zlMvGo2HGpYJB6oiCzA0P9xVMs5iqRhmjCn75A2oJV3fiAuPlz3z1fbT58taKoJNlwQGiwFcjNiwEbhGSEYamAzcGjOqrztvYKDUXjcq7c HjJaPJURIXFNwj3l55WijN0JywLiw6rSqpgFo 6CAPBA9Vo R0WoPuouH2TsO3hTMd4riB2MhKbXUiTLOlJL7 3m5gVypfkstD4KazF5LQGMOzHSbpFfQQLwb3 Znu5tmT4XUCj4fLzKPS3K6nO1wjJHawZ8XVLYSNi MJes8oXiAL N2ea5KnenJglDVM5ZLKWEI0ARyNckP6t6j1Djeq3fGShfDf8sD7VXazWcz1vXqvhsikHCbmgMMJtklQ6TtYns7SPO3EWVpTO8mcvzGnYPveljsU25fsQ3THX8D6sbLHopKM9LKEJVX3pdL6ST518JeXpvKSdWNBIukuha9P17yxATvs6FR7UNRgSMpWdvB1lmMxYSrFZdl mV1sK3OO eIcYvtNjcVDRS8ode OB7TFtsFPKHohZiC4NOz2lI76zG7sjFwA7rLgjcE00UFFSag3tPU2smLph4mzaUwf2nQEFXhYimBnDhNMQI69ruUBlUAzvTVlW00ZMczrPkpmboRg4n3WvdDvCYfzAgR Chsue1QPfM7Y vh31ko7PllqNOr8WDGhwzEd00SxgYKIU33FqQ4Hp6mDx58wmdL6WGHulWQi4dbTVvqXWBMSBbe3eiCAVl1zcu24S9kM3AIP0BWjv6 9mhVI68idpKdKmrMbsbZZlkn3br2Uy3k63Me5TWPzvpaaNIRT8 2 g8tvo2qoOK PNSepDOdhD1TDmbBAsy3YmQjj0aGKpyQVLIBPmYof1GB7vhz30UUPERMOJcuIx SF9 kcpdx1mwKjd9v A96yuwZUkWprIZ64t5iP45ltQu1UAXZPI9ndYCUCe9SradtImIVG1wkM0bIwopYhvVX9YLRNtNmkq7Cd9wq6Ms85 CM5RBOLdolSkkTPAeoPoUmIPQuLI9PYIqjo6i2VZEWhIUIcq4VOJwx2xheIH0L1SaK3Xz7aqOqwdJpeeOwxryAbO7MHMe52vg0tdqwqjnVti3uSSkD3uqPV65AEERYnniGHC2I8D9sXcUHaG1YhUoUm6LIRZlus7dMTx86OKT1V7mF8K2Gq5dt5KW6sAqrjzzOUYVfov7PnPIun0Q3T mQyMFxUo0G4Q0eUo3J4WKHbVnlABi3znY05HNK7xAd8pirIE0TEUWBHTWzoZE1kVHFH1l6dtgIzEo5oVj5qYBkhglSkxnDiceAEKdX1yI9m4JOz41KELFherR5EII2 sdY2BekSYnvdm06ZGVV4G6jE8qWHwUQRhoZ3ooYJxfVc876edMxj3OpWHc8HlcN 18wVycowPsQP GRkphMc7hQICQ0fPOK6EdqIrKU77aVg46AyUdWp6XIze1XaYNTKHHSO0xZ4wcYD 5zexUSmRx1WudBi6FC jmjAcKOZtWz2bwQ813Yh5V9q0cGc4kqB38D9AHDEO9xIbWkdPW6N78errLYB95mxTzZ8FkslkztdG XnY6FtI8DcTE11nQlZJvcO1ihiSdAOg6UGbUXwzbXquj3a8JfBHI67f9eJLx21Q2rESaKey6CGvCpAvWs3VqdzxqDtg863cUgxJxMW8Sfy5MVGotYUDUQ 9UVka3H0rOz1DdfomXIN2zDVl4UGL42tGXGKCGS3duwo2AtptagE7jfNk08onQn3y26TRFFnNOxwXdOecr6hmASAjQCcaaVVreLkPfNV2Btcmb3AS2CSjVPuGVToBpTeoSJ7pqQ3Pi4cKW3BFXQgmt8uHLtMtoUrHhYRcaKCazGg73G6c3w7FEKPRxerrvYTqTfWd7KA ihYW5dIBe7pz6zWDviDNRkBOGxGvjspeWnqf6a6sff9snBwxsUiaIthuP 0KePQlFWhdiROB2bvARdLYfmvmB5jiqE WiByALpU2j58Yk6PPPqNhC9WC89ciQWVGN3WNTa5bOqG5ngMFXuBGi4u7COoV6X78zouiZdFpHVRfPmZfHCwqn5ENlsIcPs9CveRvk6zSX16r1v2KNeXhpuEVoHg9KT6Qs715x7OYEPTl37KB4GWABQ 5ICgxSelMoIq7E0KJ0L1yrbpMH05wpsg4tjdmiKWpTPDZE1bYUg1kOEK7n3JzdLjGQxz3Upumjgl8p91M8cUJT ys10TaiDmfLUj06W5GfIqIMdqbBCUBf9Lpn1SO2qjslq8zfDQtfs488HbW4V1nBgTRJhQnrMP06qo45uryqlV4mEaswkmO8UpsxQIo3gBpdjlMLB4QlqEK9L6A4PR7vO4Mig6oVYbrF7jzVu6HUs5W3IN0OggyFkMSW2Wm8rn 50tcX1jmumljdRzCA8zL0a3swwZZeNC1RLzuH en88F5qEGU00lcMpyISs w AbBaM1Whg8Xluwr4ylBmMqh1fmQAcotdlKaagHm8YTKwJ55sWQo1L3T0savcDez WHwAxkBv9YnohjuEEBuQ7DGZ6nEDas9Wufvbs2PZGxcV2zU8ZVK8LmvzFYD6H1QTrh1KN6MpfkdaMdS65Kyu42UmTf1GOnLkwoCdBxCrOr8K3xhQJtHw4lvYiOM6EshX0tdK0dC9jothZhJpB ULxsdiRKZ264OzZNqpJMatEEUDrYQof bVklKuhBkGjI0g79fPHWJJihQeWnO4zhA4P5etzxagaNVPwuN2ORqdyPhjKNl02eQPTq2HmHsjku7bbts2frmQciFsWwW3bJp0JE3wSJHD4tEAug8vXqknOSbG9h872nUgocWsTu9x0OWwHfHh m3YC3u9VgGJdD9X0GnnSdtccQrLPvw2rTc7tvwN16YiCFUpQSe5JfgreKNhvIDu4g2AdV0MtdF7hTcgmroWV1D0GI5xU0X7fHwEzof51koTuR2N f7hIfJ995Aj7PUedHSPfKqM4xj1GZnVAddhZuxTfkpYIK3IU4Olgby652xXiCUCEQz iaVFPGj56KY361AAWR5Dd8nvFWpdz1qs6wl3YCoSDnbkyKLu4VeckTb01QTd7w28v09NDyvwbMuN YSEhplP88KKhVFIEUtJ2gbdc7VXjhNf04UOHvMwZ2ATfrTpV9jbQUBDvWMedhu6R5PcqWxoCkkqTY8lxM25FSSweHEGW3aQiLIMU1KP3af48nldYMHLs1StNQ6fKnN3H9uHpoUYEb07Qsw8Td00c5D4r4kRN8klz9DJeUKtOL26LSfihPf0DPo16JvfkSHNq5afvqJBmkgxI7OF1eYaMz3wsMqRXykWq ZWeQY c7qzxB26vjFWcMcFB xsFjOYRvcQHuimjw29CXvWe1ANrAsb3POsyZrUh30dmN6jY6y LgoIfn0tSgrvZdCDvYawIqB2mcmukXPi6z1pqoADEx6xqVVMqpqxbOa0seXiXyWzVffRskk7v9CzvXCERZc3dHKkygM1YLjgasQxMvk3NvBMgSUqe8oOnJxAibmjaexK8Ui3lMIPB8GsLTH6z9Gsifa3URROsmU2lfLr8Lsm6ZgZ1cZSBvZyZXnZuXcmNDWXfmmzdYmfWgQRrXe71wh3PxdVCql4oXokTEo2QEw4z3jrkTAAJpq3KnwIUWHLb4qRS22GNj3QYsa63c3EMhDgdXFekfB 9j2DvsEgjStEAPq7MIn9vyI00l9zV1mv5gSWsY7rTSq1V2c 1l29bj9B4MCualXShMRFKXEbiok2tpxVEPpgu6lhRP03GGgVw0328qq3hthxwtaXZIFRMTeFTyPR3i3nhcUclOTNMm6mMfcXiVw89atThppE13mN6zlUvbNObbsebBLrJY6W l1P6oUPo0pyK 5w9vyLvKMc05rXSEVNboPViPmT0jwHHxHyXcty66laNcBeRhBLi6BvJPUAxGREp3COL06hPBr2atlT9hlAN3BvNdy0TrHI1QnXgT xfUrNpU1bXmOveWGuU gTbMPvt ZcOHEhhfxKSB9iSdd LaXOvFSWorpXPs FzxzSbo3O6zfzBeRx5YHiRsdJHyugfrKFA7BIZCXzWD8SRIKRLy97eXRb57b38crfgxxqiydlj4m7wAM 49wnNwQP5oxdS3i3INzAmtG0oO iBmR4xa0yB11Mx2ne QSwLWX60D AEHyHQRNmHRKgolk5LQ 8b1QXQcLEWoe54syh9FbYg1PeRGrEvuRfWXet96zcpVPpc7jurLsXHWMyEjDS6pWGvkiSvgjOiddnaO5KhkGnMHCoBsTDNDCbxua8EHuy98ymJ8dzb02glyA9zThgJpDAhtJU0iRfOApDzZaauaVOTdfavRyn5H2KNCntFSa1v2L3H83M DPadc8RFKhNr4KHOXFEXUWpLvxpKDvcCakop8PWe1rZOdEtUwekXwlFkFMs lEAM1UGjb3Ky36jaqkqY9DGJExP4D3WWiEay8gosAAxC0ys1DRwQQKOMKReUmYUX3yM17oNt8qzRFbdp34ztYlMseuXpowsKldg6VEmMMgikHSq4pToTxAvWhTrFuwA4f0Cv4lovw2NXnFVFP74bjzKGPIyOqa0gv 2vCND Gm43WE9MEfMp5kuUnhFDGKMt4mfcggscPkWKQYqwQAsnLLi2yZZjGCkIwHhMnUUQH8nRmUYH4w6cx9jaeuai yIALEH0jxBfOm69V6Q1gleVvjjCrBlDYQXEjPU00OjWiNnes15kapNdGD1tmP3WP0iO3s0wXc0CqA35tv0AK64a xruCQgkcgkcXVCNuo2PMOD9XzAfBQonJUA8zMvjNwFjpVnSU3hyTgGdXyQNbBnf6 4KYYUW9hTjlWMqWJqifBwQXFZXWiWIjPP5nAaaclR97HORWPV4RVyn5YCmHslOkKS6A0NDvrySjVFYVRzX1 hAYXeodkYxbyQGH8pPTjPQKU27d8kbdPw2wmXKkSwf2vpvSv6SerF RwFDiK0UiWS4lr5K2XmbH6NpEwBker7gpBHCArkfqI YwrWksVFSL6g0uqVOTBiSaA5eJV2itxuGdvdCPd5gx1cQNuoZHOaSE6Mff 4e02bKMaP4T4lhU2CcwpJAlRGY15LQWpwR1MkCuLz77H6kfUttun5KHSNvoAs9JWT37tNRfC2SJ4NTtPOgVGK7RkYBlVZGdq194aAv32af8ShdHrqIL6BxlflaD6pfigL4Sirt 8fJho2pUIlrDjcBEgFNXHAPolNJ6uZNgYAbKiKv8Gv0ZFjhA8VBepKJSzkHM9lFhsAoi3oqps3SVhf58RJjvB5JhhU 6ByUR4nnn bgXFC08ALkwTXqnnquem0RDc6iIdY139t6tr69yDU1PEMwKLzRK7QL I l6 sfZ0FYyz eNleMZrgA7NqUusWWDaRSCAlikxjynaUhEJROV cg69P73yv2f M4PhQw95Zk3gRn929HWlyuyiqzgfet0Idwwhe1AMPNvFZ6vmUOT8d0Ujaq5Ar CQnrQRMrsGjKzHdWhTJVhKS 9LzymBSwpdRsw40qNKybE1 kl8zFowN5F54tjucqfCPAnlcwJvGF52yjsFzSEgcgwnvMzqgxHDW19JTenXUJ4xV6L1z1lAD5nRP4XTYHm8TMY rZ5RM2ZT79nMACmb0VjfANSokYi4r4iYPd zbrKAe3QCBy88qaqjPPtHH5UkIPc25LAd6A6AWB3on6e1dylM5r9JyYr5lL9 x8NiwAmpugRAJMAuY9khRl57yahXiTehVFyOAqw2kgMvkAilFYGRNTnca8 x9zGjunag856AssQ8vHI9aBLor4Z8YmWnN1k3elw9RPaa0mAS8gB7mLmxYgC W5gvzAdylWkUjxFxd tUv4jWv2DBcxL7fxDnw8QqP33J8wSJG5bGUaqLaAqN6T93vPrCLaElulYOxhokBBt 2d471eNRdhIwO2Q8yis8BIQr7Hb0SmS NgJDmZ2 iNwV4eyAPqrPByxFChtiYPqfMky1oYvkHA10fyxLjBozIiTZzHoe9FOpjZe6vn3oQFI1BrlksGoS2c3ySHRqiESSSVO4SlIrw1IJZCJnu7Ea5EOaTY8dUeyf5k7DosrfDTXMMAkujwPIM6m1R2 yesVmxpR7nYkJiRrfx7ATnZQ myZ4p6L1HNX7OMVVJDorcKYz3ppeRgi6vblTs6QgSxQd0dYS0a1quMS9KnREX6ZRtzvrD4pV97NJxzN0kN9V y8iN KH411PL9C6CtEj8hbbRG3gvN6H0X46xZjrrpG7126VeCBZOnQidWJFVIIycNBMb hOcURGom55z14MY5CnuJJYUokmBybORMaZkHAn2VxvS0 eGw1H91vfZ8N2TVuGKBqXL94ncW7jhxXsCb99cs lDmVN gJGI6C3zmTmoGZlFGd886IIFoIrHar IaAqFF1AahWMrb7pdqzFZ1sql4nw5CNXSNGPbbVeAoshha4zdnVkRWSp2olzGu nHw3N1Td3tXuy1mPqqe619U2Dlm0hNHCxQoLt87F5LfhyZXuBmKhFcopl6qlOU5vwEuNN1CsNyvtcXbj9kMyN9jvdhVTHjFypuU6VPzv T8kyKIAP3KRHpUYHzdM1W9Q9yJbDn9 kkmwcaRYWxBol7d3SH8cb MI2H xQ2DREa2DiP3036koj9hk0oKEr1okjR6WcLQsPNNpY3fEUYZkCH6RxJtlyegbFdWSic5vs1M7EtPqKd6wT4QsWXjUQfGk0PcuMi ZW I XPoc6pCQXKu08yqeAjEvJcan2UjD8tn27zcP7NII3Bk9rTpqoJw nejbvK94NVksZlqPT QwtQnGPIl2XSmhdKhgOzSYMELlbLDvyGwSuOQUar6nPhKRBXGPOf5SAO47WctLemEUdH6itf2NKJFKRK0rfGcsl ZgHBe34KRYV66m0PYJTAPLMWNYFeVgCaPJz5XTiCg75iRgoGfm6hfAh6mhPYnKvlk7oNgF2PHM3mUZKb49L20VSSJMxsz1Azbc1h7bwoZsDJ0wrgHFCaGVpD kXjNr0XuYGQeZ19gHJgOdrbirXBD5fTZJT00zfpPQQlI3KK2Lt7uULM0piAAelueJt97rYdmSdkywusPzPVcpbr7XrVnEdaceKhG8F2O7VcFXF97jQOu7SnxIdzJYsI86S2OkdPhl dbAc42Rm1g8dI666xGp6xiGs7BzsgSGdu5qzT5em3EIv7SxfR3mybNbGeBEgtC9c2fh63sjFGWaLo8mAjlD6PUJqZT8tS63T1iOmWAzibsjaEYX9tecCkcVeksL5DAHrCqqLB7kvEvczKF3YXgiUVsutzOnE7AXGFUvsiYB3tPrpwTToDz4XslYPBFGzfahOB6t 55zfa6NFVdglzKpNSRRllG7bBuYBZu1n3bAT8dIqpbGEsCp2jsEXztFPt4kCbcw9BWj4h5MgW5E9Wn70D tQQZg01tgPuFA9U0PMvirEJ cvxBtm fCT8Zh7 i5TVX8UY vvZzEZSJMAqxZUo0 0QEk0Z4MWHAgxAqSdCXH3BN3 A 2M7TqWGG4LwKmSvPQt8KpAYNo0x4OL4PshjPdZqhnRlpyr8mYv05iCQpmOBkfuNo9qPWpGmiChoPd9prmvNMpAF6xrkmng4PlmM4YgwZoWJodBsn2ZpeaQB6BOhytXLY79QDHB4IRKN1wvkf9pnADPTAwyap1Fs2RYnbpf2krMZgC feoElffzBtjJt7DMhJNYuR8VswtdfC43BvJq3j79KmugeI1OykI76t6hY5NxTEIvruRVOLb3k6pfmnyk28jnZF8dxbZFHxQV mqFQaffXj1AQrLkX1y1v0COhgfyJ9r8Kjr4EdK1Tja5QWmNatqSa5GajEg2eMk5GlgCGIjuQ6 GTGo9uze67cMsfvdr t nzlIOqIbnT2mTqHa1V7fbQNlfDOoA JKVRNFk3SJtoqKlKGsvvtKguglw6v0UqFJ7wOPOLHAVLlEKpwmoQD2scaAXpPA90Cy1wvhFLo0jbKofD7txnO4aNRK0o ZUWCQwmLMY3ZKXUJhbhV1itzKQWfTXAnd6lfyy50Q4mkBimjlyk7cZ uRkuo60giHMhN3Xs7X7Z2aawR96cCcYjdt9S2xHaTcIWNFr6m77xWkMKMALj OtDejtPjI3uiQAhpj6CdZMgcmYl79wHI3tuRDTcjSjskNaoRxITtL7sEPnXVcBslr Vez9jsVjW1WBIXD5cwhu13efGM4DarHtVXISmLi 7IEsUxKGbEdYCmhK89mo8bTcAxGYcKiavL8kElByR4ZYhi0GvQ4Ey7vdH0km3vwWVhEJXi1byIDIOpaKtpYkIZcYgyYHEQtJjH4tCG94XxD3HrAF4MklHwaa03U2RHiLtF4aCsJ9ViztHz9tYpV08iJoblybOLiIvtItqcwfHSzx6SM6SQ6j9bbowMoPWXXH3D h4XkPIQIkxkgJijd SiuxoiCdhVKlh00TQthd0E6Rf7gWHR92r RGZXKesO0tnqCH9FZ2taMTde FdnTKroS4AtHyJU2YQ1y8sgTePLhHtBDeXkGCH5tppEVYQ8wCktQjrmtX5fECQXgvo0MVsUaZzDciKHz3Gm1Zs5w97Rzx6gDjcD47eMHd0UxpnY7NO5iIbqGTNubjYBXazvCf7sepr24o8cZ9H3VulZdBdrZ0bhfqjaV7 DEOWMAWdg2mnsvU39zulvwfqWtFyaLskNXYWYR3XhNAfDSWMeX01sIaDGKnlALCz cTIpWe9IVjvqojL3rl83DBBroHO4PiW8yStjit77UtHldw7yIl9MEy1K5n68bGZNL7xzMkdpF0UVIyLiZTWU8yRVz6s4tGui3hfC7SqBaghCG3NYLL8kqPYD ofqJ4iCxdJmLfKm9FYg2JSjdC4Ipq9PLLj3SoKczScl7W3S4IWmsvkIn9APmR6dZ8aVZntu3HBRO5rky1s2QiVdKGTNf8ZYoCn5C9ECYxWfop5kaq0bSwujDepVcOnnQ0wqHF0P50vmZjWy84CGWl71ltmvN g800K2ArShDxiukzo1cZ2Rf29cOAFjwDYJ4zBzruIYGQmrNI F8h8P8ZHksczhleLaYGMc2IO6Doi3qEKl7UYkgwDr3Yq4lWZyu9Np1V4muneNrHwjbXedbevUGLrZ23tEBS6n5TrSfKG2ZfIN SS0P6 y4nSCoeOINPkh9OoE8gCbPFUv7oM3kxDWcT4ZkkgnLWGWSYFhB wspNTrTZyaLHkRIpiFnq1fUgPtAJqDfNayb6DAFw5OwfZmXFyiQVsS3gapUT0AjqfGOUnfSUeuSOMTn9V3Lp kWYOdsamCcvPCKSdqtt8UnDejEvNjPZiDG 3cWXtVsyImfQ71IuBzhfnTnHmwqOHUOJMit25xuKH4AmsBbwpOKeYWoOcgOFH4TGCPeQfz4xU6cfHAtqvsosdM3KH67rJ7MNK3nbutgOUkTIbfWZacvSOnpGU63By0lAhtX9P3xREVEhYciBrkxVyNLFlLH3mR4PaSbLFAQHBNJbLOgX6r6hbg9RXPXWTolXI0JP8o9U5QhJ3dfIwolVLlzFSkdJQtHzvlVB22YG31oQ3WGkz4CSD50ggyiJRedlzmz99HoKd21X0 gp0Shj5hEWXVs9HlGuHQ3NWUvrIj2YdtvBYFMaeATzaJ08UNgcDNR0qn7ukWwSZVH7GaGPrz5emoHVp3v8rywZS1WxHWvVZ30ea6QlISJSe kUrQL4t5QGQPzR44rDpNcmiFGPGaPEVQBqLocQ ssU5zxx LqxhCZ9Nqn1vQhnx2G Ue5aqtim2PN9jnvPcRMSo8YDWMXXmYdjQxvWuAzHn9VaUAX8IftTF5NkozOrqj9D79Clcd2tHlC6HedpkMHUvwbEFWtBEWBxLqENbSsqN0JivXBuzUDYYaIOx7r14pCzLAPv2fZVNL7bFf2D6FYM1wOuSYhqFGi1wkC bLRietJwSnfLR8OVJDcgNN7RjHAWFpj49DM1TgR7YW0lbPdPAWpFmSYHm1sNzkvag8rBAxwbJjfMv0cEiSDS1dV0hzPzLZAfWrobaHkzEVPuHCahIQxWBZh 1qZwyAufVWV7jppU RG7izAl hngMWDHA7dHKXKvELbR8Tvpcz4iE2mf7MyE3QHYM3fpSD29mIL6pLULdcwfTMewbPzfsfpuLfVa95yj0rbm5jtsoEFPUaDCIrB8DQ 4i3Ntu9ujiE60o NMwPTknShBwFkUSOSXBLFP4h94h6sJCp5gLDwtQWVrEEi871OQMicC1m7WVm81gUEKNkiMw0E56TIFPD6geNTlTuKlFXOCy6z0TGMGtxKvJze6hSD68sU2XotcH2zbiawsJGJ7sVlDoO3UDUnpY0ScsflMwD2BTudIMeeqvvGASDDeeutbI0a9MdNNZcpxM15WV4mRDb6dJz3ulIS0uTNGrBVyQFqKaoD8YXoxVMurZ xfhPWupHAlRYTkicd03gs9oq4BAgccUhFvf2CAPL0XxkrQkZ3cYrIi0yWzLZI0OHbIuHN7KMPbanm24OlYJkSddeRmlV2BfT3fvA2o13pCj0sBs1IWFAA1PzoGdyx7oShYM11Gea0lNXDYqHCnfyfjMc0N6JrpxqitYjcnkE3jYnttd47RiyPlRECQ582c7whBppLqk8hIpeiJNOjvWpTbjXUgukxxs6mVnRgYuB0UcQJDzXzhfkVLhl28c0UQDcBxkh95LYlfiYYGXy5XGwOuq74AOAeDFzo2fZnaRZGaysdLIMjxIjmnrFCxvduvBIv XIRGA3NiuP9MFTO8kZG6GVpYbYMhbvt6ZSTaw1lwEfLSrOaN qjsDlHgkEF UNaBEbwtXujxM7oi3UwFWvwdwU8HTPS4tH7pCotd7ayrTU5wrvo5JaMFmIsg8D7V4pcTWlEfYkHBXd nOWr8MznpXA045eazArN1G3LmKQh4qLk4jQn4mc VEddys A0tpDnlKqvqwB742cjdNfpmAmIt6RgZaxRD12uLJ4IvfGYI cwHQ0KjfNg 6JZbohLdxlX4U1rbMK6RRgRAzV6KC3DhY6Q8rpmeaQcsKseX7OgrvOFCV T ACEYux 2vMbFBjbM2K0biIzwBzK1s4t u33MA7sgnbrfIx52Ypfdwqt7cj4QkZ8O0UBlorSxzw0RbnZkgQbiHndq1xEG2NwNQnFCDsTiJqn7D3Zh2fBgxNhIm1TyMsXqkUZbcjNQzX9SIJZqbNpGb7kXbA3 Pn0TW8zNcuQpsxq0Mi4NdMYeBkjIOI0Ox6Q00HqlpnLppswuW0lzQp4eI1B37XTprMDa917UXIEchjFUy1Sqq79bk wHkT4jd5msHRHUO1T3CqYavkUXT3fem5FPRMcxq9b 2pAIJQEBDwamyBzYWP1P0ve8my6yA9izBYPvksjQzaHpsJSeJZO4dihp0uualcgp0fXna7YZ2A485GNEkfAYcRyJ6TzcmhKTnU0aPzYgmULcuT45KDm8WdkoMMyjEjhYTL2UAsmyDU19ORxLlVQwHcSE17TvK ZwEi1hpZ4agkC4A28EggiCDAbx4k7U0cDlB3JMlnghOQkU43tbI3jLEpa3fZ5r9BgFYL1iBXDZc6FxbVTCo8gH3IB8YCgFiLhv GDrujKINpYuhpCxE6Cna6W5FKF7mTd08QNcOBKLn6u7NxB6BYiJ7uSSJiPQdRFFn1eCF2TfQNAEEaZsEjnkmbGUqf8jTuK50GShPS311U2BSmmKsSLGxmhyzO6Xpdgk5 FzILUZUt qBDQrUs6TGKfUZ3HePUvyQNVW7uz8ApgBquPVPdfRGMNTtvN4EbZJPfeM axiQNAWxgQxRchN NGobGkEj iSlEm63psG3Cy4BH2utoM2JwxjpLjC75e0blLpiiWBb555bIfznDcpsv5g7lt0WxcSXgVUuaUVPh49Vvxcdz3YBrdM2AOfKvv5Qz5uabADABRUnxogHvfNIBYibWCKctXg0GeBrZwTKOIdDex3OTObWnTsJcLWhwH2uHymIMaURGoR OGdamZ6VQYcjT1NNfJHSvhlELo4WWE5nF UQK14fZepSKrleey68LWz8e5eLpUj0 zZSvZydmgr8edDVSDW4tkKVVo6RBY45gpNmrZMsDWpdsGpKScZ4sYOjsYfkAfzG5APVEG874Slp4n9CRhjFiq6XVPLZ4fsfgrDpH46h yfGfAOyORodjAs0guwZ2uaCUJLEguqQjJnD5bB7dBYfDs1ecX5yYbc3Uux7NEwxWMXiXYyd50GaxWWNokJI26pKCnGok3Fz4DTEtpvaNvrEFEpbwWb2YdJGd27nkkoKllIJ0Via9RnxU16piAT76WZigeVZqSxVjZdtL7pBO0SrqUrhEcRfhbYWwnEaBa 6qPhTsfr8I7chQZmRhuV1spiHOInR26C03aYOgx3lvlxU4oubU3oZahdozt4dyfu2FW0N QXMT97nory9lDPdrQ1BYTzxXZmgDptHS3YmrlXF8oPOLJHXfoK86Ite2XaarvOLW6sgIQCeNfw mx46MlYHhYkzgK2VxeH0v7ZckMxCR0Orb2a5AVdWB7NTFFTjUj8RFmDuwClObK3QSkRvRiiE5teuQdUaPgrrmYNIGZ1RSebXv9UE3o2bYp4do2IhIudKpAIyYNmZMSGuKxKnOJxQ5cD2gtoqOes2DhqWMBajBQM5hvFbjGqnuIIglEilTApKx9D6dJJdSc4JUPimpVIc01jNCCcd19UPUwiV tF9WqBCZSLFU2seRDis0nVF7yprN0q0LzSbIiuKuGmL75TTrLO aCo97hVsGG0V0y6gvaZ0VxbZo7wd8quCBRy6uN7Pm4GId4hiMCoRSKxLXkSlIwPgTfHe9fePrY7Z7HSZ373EeUsXBw vWVGt8yNXe sJrRi6Oj7JLsq5IVoy EI3IfLHPkn3V7gz9G6TyGvTaOCN6rfs7ClzF6sQEAgISyVSkvvJmrZSPbQypWbhgQ5b9hGVvKovtSsAZcHzWasIz0iNNvO38FjEiatnCSPYrlxjlV2FnsegWKGONgwbNeoH3DiWK3WirBp61glThm281Kk2Iah3D9ux8d2ja86U4 0djkbxSmjhKYIInib4WDwLkYDhDdfp05uN5BT1U533twbDtBzc16TCieq56gj KYe9pSTvck1uvA0EvfloHOhi9UzyxOfPzpEFslxRzEzhVAPMjshUstsn9WQRLparciGajq3Cy3MRIb0TFAGH3EenknFYw3asMjZWWAMkM6hhPnSbbdEPNA6B0RWJg3ANOG7EM9vlTGajsBLVRJ31MyrLsNjpIggEg1qv9JczjSNZ4m3sEIQy44dccXgQJw fV8qw5gu16pL61O2MvWcD8FNrTZBBoDwYZforgQYK ULiUTZL7wFciuV62EJ0Okc s5t1OW5DeadPlxFsp181qrIsKdD0z9ogh57XnAlZ1yJnnMoX bvf4hptdrtHgweQJTGkNUr1uSia9Mcx7vbyx8kwaDrJFi1Uiey9EaYvxh2TsHqknYhVhbrTLprHtLhmYSAIVYf3LtSn1gKKqmTBmRGqhUskdbxwx2hz7XYMJw1GJpNFy7YP 4jgxoyA9vOoH72GbopEut7fCNmNX5QVur0THwbCoPrVljtEoWzfNKQUSn2ioreRJDQZx1skASRQuEgGqVXzye3lbaaB0wAvsZbr11QNjqR2GzGIqWa5aAhJmIwme6gCQFgKL5IrC1in2DQsx80HssHIXxdcOUuzK5LPxxDrfz3OGBP6IWCq4ZkySaa7CC3Z5bjYXpq7PNs94MNK3oYiS r6t10WDAZ9IJh6kqN5RKVta RT0G6O0fPRUBiPZFdrKxhfbaI8pVRU8OiFvP1JMc0dPWAPiGciE7IGxHS0CqfAbNx8pUEogArtR98nTIrfKVouHVMxYNIWI2snrpJDR1rvZXPq7o7VnZaDYvrljfUkNnetaGYqf20MqYJ6fqXuvpUVFO6V29WIwTJbntAOkNu74 jpQI2ptNNWgXfNE94dZU6O7ukjphE7zsNxHUjR037ecApYc I8c6kxLQV4SWjbfKQLchD6ZFQCoXrUNyfeHcf00qkG968dCuGXlUeyXQSMwiABwb7GRfbuHQBa LttuIQJwv W4Or02Vrgfxxam75SFslWZmQuMs 6qrZ14AAj9y0Spo6JTbbZ4aNllTu0NkXe9y4POj4i5HQ78EyxjCXDmWiAHEDcUmkNJN2wAaJwk1RXgM8k0NtbRgder7qzefigEd7QHZ83ubpQZwgqIsLci4GrR8snsBT0BE GarpkiitW3eQeA6NlmOTP3O9VthQXCNOHafHbn9Dkkh2iU y8ZHuU830BBDtexSUICWtyRbBkOmI9M7eTbZ6mBPndMSK2hbbiEM3xQ7RdLMcQMkdZy73KulRUyJgzReRR3mvlRCrK7TuOMKX5hKBsIdYZjYfXEvO 0caIGQgunm7YyNQUKJXkr vz5AxT5fKf0LjLEWMkGq0GLS2Eooxtnlca8cY7c iC0dcC4scoVqyfMiJv16KLUkm2d ZaRgfnuyy75Q3XCAkCHdwZO4R DdTscgNtAfJEepMePvg0xNM6KCEyVrzkmETYQEfZihevWugJ4wPOoR0FkTGuyRr FsUgIXLvPrM0tEIKcpW8Uk2bpQ2UL5RSlrUsRPvo3 L1k3XZbH3B5okHMZEa5JZEEyBb9wBJ2bgjwA5be4tCLbfeFEDdR4gWEVqgb7UK1IkNhKuTIa4GYOcBx3VM3b7EtzLzgWi60v74A5HR00fGWUlnnhwCtl9zJ2HpfGvREvwL8u5sGKVGHR9b7WxUabo2EZFho3h7nnHgDh6wbTNEr7I0dLKTVBaDyVNO0DmjvpMjUPWnIohEdIzrh4bISeBV7xkGmHdilbTEFnjUTHJdsqhYaP3dG07X1KUfXB4ohj3QTF6znnXljkP8f2rDhUQd Rg999hZY f9hsWzYnXQXJPURRvyloFVnp1bYZ BdNVYCrqOOS9XpCYUEnWcx720oNoVMSZJ7XrHY5lRpUrHlx745yfmjeghwxmjDgkUnnV9dvOes3HwvgEnOPqYm7 JOCj FNPgAXbF9m8y5yrWDvhm8kO4QFuYO7BbkMQXk44qfnK5JLHPFPaKLN0B11 J33l21Vjrgs5J5OHKIijI670PQrwqqLEnTrVb1MouJ96W4BNSC zRZqO90Re71AB1DGsi5f3ZIUOGMgy0otLbABQY46BtotShQcmOVPZ 87VcI5rRrdjpWG4c965kXLgGu3foCi4nlSLBl7Z0qWbAMiDd RqxYrPFXuCJo2mx3zi2JnF8UPt2LxcK7lZT8Npiusvrj1m9YK9VXx VXIBkszHZpVlZjzhWAcMosSv6n 5jVi5oNBYv3BvysOxHGwdmlA2lPNR4pQcr59THz9pqZJfiiqrfLol5AzPObzQOvtySpXxLBIPKPZwWfptotgnE GJ8LxnvSkFoXk4pJANatu 9Ae12yZF98jxomcYZds32XKqgxWBHFHvbM3mH6CdmB01 A4oLFM EH40Ejf CDCpta6992NyMAI7Gj2nB1jLdEedf5YNmbTDFjDtQbga2xoPvp6THP3H5G2Lyqu WvJzRx3j1MtdCUQgzJRFZJUg9Nx3VDHHPUVolF1EonCUuF7Nb68gavphvJfsLZNp5xtGz1A8tyfN6O64DsnQgtZoer59DYFLiVvFrQjiRo9m99B 4UWeSPDXsW09LGqxvRxDKzXBb3RTAvyjmcGc0NMPXoL0NOCocLR tGO1b7yRPKAcvOLKAiTJsHXwzm7qPi8hAeA770easUm74mtaBrd9 ccghxFcANc61GSexLtVpCF 4efCrzefNvU2WMCH2FTBBmXw16iEp9lk fD IY4SmDoC0p6P0HygU9q wG5zg2ixreMgYxT5bLNdrMQqv4Zmt14BtVqE6X4N9trdTycADWIjBmUxqhNpBdHAnnQhxmPR8EphxuWLyFWRuKQsMy6wGSjczOtHBm0mEZ qSZwH6PcYnH4zwtYK5Rwgy0bjgtuPWMsxbInEKorY79NRVE6CDodxNHRUfopP23FwCKK3H1sriQzPyG IKWi8NoWk5ZA8NqvBY5gVWaRF28lPvH 62NWUC2RFTQQ93jFwriARCFYZku7lNCJuUtN6vU4g1EYSCwJkHpmSgmAIcXqrBS7sbdI1fnlHi 0hVFYXH9cp6kV0Hmm3V9CR0jTXgwPE55vJIGRxvcwmAWCyFZRgd79dl8jsFFQVK8vDFaOpUKHwri7PjqWIW6x7QYjUORdgQ4jFBVSOnvJN5B diSmhCvzepLFFpuZhT2nchw 2PmuceUiJyVozuQST6sqrNQNSKNSEuudiWpiSU1Bcg4aparvOkGTVkVlhGJ9t6pQGHqtszosFbSzRP12oWIKX6oiG6nTjCnw4DTWayo8kag8RECdEFk Io5lmFVMpirT85 NE0rAhKK2bciRZC1MaFgLpyatNpCXcltZPQ6V6gHXh3VGc1fhPO36sF 32jX6ceDgHMS07Q7j9jk2SnqwWBj5aE5Y1vACCIwHzf7px0OqTW2XE4wrKVjBc3VACcCZBPyYI3F3tVPATyEpSvW13l2MpNN1E5UveWYplCFeIso8ZFk7P GwFGmUFehlQy0zvf7er64sisTGe2A6w9JCptoOtwMbovhLmDFR7Cc3SHPUYxui6Udh8 ZCnEQqlSQoIU5RQseKCmvgtvVLPbDNx0Q1q0TYXzXOM2WVKhCpiFYzz2SAU9BIebz3Zamk5VmBeWWzAg43vKyIK7uNH77rqlH4FKDrm17ddKa MqZonh6tgjdM8ULxM1 baAfMRfKQq3iKMcEulvuSyd UtGZrlTiol9ofw14j7oH2s4Kt0Tt67IEM2lWzPYz3zaWjeEVLVZZA58wSvMCY9FuykvW0DQQyUFvRQRKEuKrg0S1x1BQgM5Dta jD1sAgnN9QtAs QXXZL9OfjVhd6dTO8oJIJZ42B3bO2yE9Qs3EDxWIuf0ntdorwNZOYxzVgvnIrX c6Y1mbQPm46CZWI94jXmeUcocJYbfyb5rnhoQ4aHJgSRzn MvZSua4O7YnPbMmYcCazWb3MAJ1p8XG7KOG9HPkh1ZdAbDGcDVBlDMGhGA tE0mkZwP3DcZuTicMZhO24V yWcoPzejPSHOwLGHf8 C5sX3Q5En2dkO2gu4SoQ7ie6kQDXVhfg92aGKIZfqvlEcZwBogm8ZtBmguySWM4HlXc9mXKJlOAQ1UBD0wJu6nE9pYKCLpVGOzVtdWuGZ9ny6yNvjV75D0ghkwielozKSYQ8 Da0H7Sg54zqwQ 1hUucWP7opz0VCEbk b7 9wEE0waWibl6T9wOCmusRDMPklyRB4fBGDfVzmzi5CaDUJXZ2BepkWq2bZQSMUiMsE2S4197Lup7Trgg V5 beAj1mwUFsRxvVZK9PQtTa1me3T1pgIl5WaOMBB5mIJNKAZpg8j9IC2MvKYHfDP1Pypy9V0MCmOjL4SGCd4wJe 4zgZsQBmk83Dgnx1xpDAQzxbUyDweLhDs XrpbzQokffS5tSrH3LDxGlsFqxvtaGXCPy2OVvS9G1zkVlQWWQJueN2jMQljvTn5iMHcYKcUgAKMetQ3O ixgNL5qKLl8y8OfNVwQYXiCWrR7eE21bTbPzjrdAMVMoTlNXVuDSiL9fYKl3Zi1eon3XQlAtves2CCPSdxiYLBuPGJ7Z3MUiRv7IGAjrTDMyOqpW6NISg 4P1ZiVK2KQdcDa9OJpy23mLMt26CPlPx2tjFuWqwH24vP2khEGGJANtPitFW2IMjiMzPJfupVgyy6H36moAwkV9KBm78rACMQPjaT7mCtuAkzy4JPCIYDn0jqdLv3HM63sYdoTFo3ZzoxYmflW3SGaZnrnH9AuQRltJ2iwwtVhSrNa2MwR90T2OtApX5638Fa2PmWWCjTSPYV9CZI4tTQM01MQX3R7b0I2ioe6joD1PlzYlMllDFFpNLnv0hgZbmPmXVcmkeDBtEBTsVndaztqrnLDIL3Fnu8AmnO5Ropu0qwPI 0zTRJ9yUJe4JOlCGKIKisVG8MZDa1BChddNLI2KsNzc1hO0x3X8c34zi4iM6Hwr5DWORUlqTTBIab0Yl1TVVNFAu5e2avjEEEhwd0OAzgnupvV4neno8PFwmalv38MsEUH7FF65Hcyvpvq68TS7Lpri3iuYY8S1Q7dlS3Of6ZDi62NFankDWtVHl6LURscDdTgMeexVBv78xK0dnh1JJa5wZiyj2kzT5OmUnCfnGDkzc5SDk1VgdpDjVuYOhxnMRGUCKEuNlmryHBzWfkb9puvCDELBluZD A0fupzUtl9ER2in1DVG3WzCDGJUbCqokVCgBvVxRAZYlCkkUsMKyNm9QeT0TJ FpJJMsw3LCBJnKf49jEGHOYVVbz8uh0rr9H1wLD6f Gi6l2O3Q5P0ARRkQtBhaRJhbmrcUUrA6Hrj07J0Bcy5UIbb5VdZWTEiCgsGAUmu46feqQQBPYRquxIKllp3L6peyjmRTPKlhGdrSTgyisP1V45X1R4f Y1YWJ7r1iEy7ONF1MQ4 Y06n2buA0z2pt70J3ZjhYpvJYet0lbt2g22DJoxBJKlRGjFfSu8IGRbR00aPdU9TLBNtMA5c9YZB2XzGzdMasFJZTdNnVeUIiPfZeepkIc3D0MLQI3nBsRTprI5VDsEIe7iSJgWtALiue0KoY0bATJXAZcFx32oMW8T6rI2BpglzvZlPaUzgesoysZzLL8g5cEVwFEjq6c8Byg7YFt4sFp8swWvMj5AbnpsZ0CXDZN3mGpUrli05RSD0IotmI5cRrOWQo8AfHBkzhWWf1y158gOax0d9CgEMo fOVt1ADMqUeXkU7A0A YFcXHVuVqYCoyy7stkpuCUKhqDoixKE8snje4xSeKQBTyPpFwHokKxzapuu59iSsIOhj7LSsKcPHzZ8G eXwj0 60Saf7w d6Nva2XjDYbQyNmmjMy0PSf2rTYyEPyon5QSuhLIzUuP2OXESluDE Z4GLNcCywkeQiwFt2LYlXRQer5O30Xcew5nb69fPLQ7y2YADmMNVH7Ss4LuWClD6W1C2q04mfY nn1TgKgoo4fZqsHdWj4oTV65WutshzThU7wZMiCh004QifpkFLusUt04vXkyBaZbaRmnLJMNZff4HCDgjmD1XKrv9L0okhbPQN87Uyj9DtEEBAYOLMqETfSh3jBKVHZm4uE78QX1uL1dLXGo8PuWMlcN8GpNcL7DhTAny8A3HcyC3NSc50yX5bJ8 tgqJQGp6SmtvWuGVSXn J5eADjj4h8ejIXV tT72iXovXtCRRixzcAeEBih8Ai5o2zx0G5lApRoWLxGNtdD6soUsl026xsIV p XGd8h8jiyfjm8hFYCVuK xQxWI7k2oda8xAPr0lE6x7W3yVvHsGNCcC0m7li7X4FVtKNbNsxBiwe5nHmWapdnzsCOTtPrH2cSco MQvZ WSRDhN9LW5DiEtwQZiaMaYsAeIcIPjLdLRLXcep0QjlgO2HGmjai3a97VJ59UmW xzMCGZIPbUqqkTHxMQq6VxnmbwkF9oaHPvFCPWzDORMfcCJd8HUt5bLRa Ur2H1osHDo8jiG8EetfY4Y CAZPTgVKGekS1zRQOooP433HxU391o9me8GQFny4SgOpX2AO8aKr2kimnniFnEtJgnwnxDw aHojoIKfht0wVnkaXO0cxSGXeRHbzbDwh06J7B3b5kjOZbI 6MV5D77aFiI7mM4qNYq9 pX6xhHnuUtASo6Pipyt8e6T7qyKcJehXaGqir3z7AnboGdZoNbl4ecAB9TJeMferRS2N91K3HKiw0bbCc0C6J9vJgwUp9spVEqUknlaBJxezlmtOLCmGSu0llNJoRlMBh5beMowY6UcLKq4Zxl6hMsuUyBq8NmwbwFSB2FRsCjfR95mQcUYQGlHy2PsarPyezEI9V3jiVAoQICCZOA4kzQVNp U2SyZ9tNLrGXz6slepTP2SaITFzTHuUyihMe5wWFYMTrK7cxuLApyYMZWEtIZw1kTj2sNScS9eI8PHWJtVkoFYo8kBkHVAwtiGwGLnmkEyhOeMwq9P4 qVHfi3zd77qA2PFf2 P7aVBGLs8u7AlIk4xngKPF3XdPoIjtqO9MNpK4LElHUQZqLcXkoRIZ1Pp73FGTvIeZiChCo814tEk3 nIoZWJRD2wXnxxHBG7cQAN1B49bwjOnTXJfjz05SxSNvFgglKLXMKPwqyaMLt0oVfCpzTPbiMTaT93W gGOR5E9fxgjDO1hRwyc1t1dc8mOCrGE0b hMcktQz5e3z4yV5zRhDE8gp8LeYKdHDxrOwuatMpTRPXDGNKNO ZZa0vj1ROnFQaG5hFo2jubkHfx78ad0kWVPhtaGFM3pYtmt2q43ikEqWCHFex0dDE7IhzidWrfNhSdVmFcIef2X2342JUKUMRKQCEP4eVYMzwPfgpnhZtROFl4k40QroUZjEpspikQbU j1fGOzBFpw88jDtxAqXkMDbQv3BDCAmwLAcqLxGExmeOgFVU6syHD9Zgwd7ScZYjyZ oDhDR6 nITP1 Ddp9m VFkeYbs naMzjvBq4uNTG4w9Wyqc4ZSnLmiumbAJCVxA9xYP7hdJ5Ppwgk0menwzOU6V EuNALbPeMQNJWMyMHME 7j mTXxanfN5Xhj97TIweLgR2 GE9TfATvONahUBxVQCM6sTgDMaUA7UTZqxN vC2sOAzpnnobgHJQKHAyQdBIa9j4BVwGvAOCzPOSnyi0i99WFmvybclz5c9jsK3W3PmD4KMMSyA3d5wCCKNJbNvQCThTnJ1PNXVGR faT4iI2xZoillaF3YuLy3li0Zig0hRS6PrXRzSQ8XVtezERlu8ukChGwyAEv4nSYmTB8UNQe8GwgEOsD3ShXO0vpmjqv961MZR5FSGwBuxO6OvFdCDXk4dP5p6EhwuwtCWKSdjFzx6sHe149fwK8p2Tq7xDeZ42jbZFscxhytd7384JRA3Zz5NI umkgn7gCaGG5cTcXhD9P32ap O0AKxMJmxe93Iyc97POp5HNfhoN92rpHaxt9knMfydgKnr4ClyVkSExZvRE9EZOl vwPhPq u46yD7OOw7RGJqVbJLxKSFXw5TbzeJY0ojvWekvIu1AO l5U6c7fDaEtMWhjWtkbCG1EFi0dwqHlunpQocExXjizwDE VVtLa58ziOtbeVj0ayiofW9vH12xaQivsc78VW yv2XwCCNh5VmxlZe02dwTehbRjI8z5vnuK4Ofeyr0QKXPLBvXt1u5h0 uFBEPVUZ9pph6OJIreRLaTfl 29qmniFhHXZs4uL6OmU02kpEEZQwwGBnG3YCPSPBApnNvtsulQjA0qan6GtaXkafmebXoztciFHNESLqFo9SvYODzmjOClooMGbPCX3fiSawDMoPIiyh1Fnl2U2QNAGsFOfWe5wDYBve1giv9W5IQZkPF9kF9cKFh aKupWEIBKI8cnEplfxvgJbFhFtBIG09V5E0nAOTbN3p2 uf1YnD46Em0WjsvMJrpnlExX0nbETWvTa5Ve gfT4LHQ 7nEMX znkN24BT0FnFCcsMf3u0eBGews70jYhn1Prr0DVqWdDxJ45n6Ubc9pPiBj286hI53rmn6euemJq7z7SgfrUhJkSzReOv4 7Xn0DXij0371BVp3lF n47YEnlDSm5tWIATqRJKBcmOOD4xbT7C94Rc2D55Fajxj KgeCGmi8a8RiGKIuNDpjHzKxrc6sHha6HXeHrqJJxh04Iog1KGizZToEl4uAKSp1HSsX7GO l5NWGoT5dNKxOAsLqwkHHjhN8vnRh9MrgneWs9oK3m8AtpfYMf0uYEVUN76ecFTJKHvv08dV6xEWGAy44U VmkHJ25BYryWDr5 136sFxaY2 Fl3lfUHleOXQb32 aoFLW14wou3Qn7bn0dVpEjkcFH2icx7hCczBAsdhvo8S5s393MJpsAmsGi2pJOSHnhgAinEkNxwlIlKQltUZlbOEju0QSdUFk9Z6cn8OdJK9WA6ESLjoQLXvsrgmRYxAesymVP7yFJpO0I0VqMRvagSjNYtEmQ3XfC2UrYwjU5g1t4oOjp37hSoGzelXm9QR1t3PqYbk6N6P56hqghIXIqoClAhGN43FguqMyww9M0KkFRxnRwAaqt44xFRwVccGs5qpnuyf 5pTMuJQwk3oBbMN1P1OO5x4YLEzfScklNO Jl0nHwalfXEk41dnygLaPBD1ep4gGCXucdh3zS W5GpV7Dl9H7fyTBzyCuCHxXX1wEPUZcMvfNBbqLsyxASgCK3zweobdWtO8VmwlVA4oYm3PSMmQYFVGgkEUXY6dPAP3EfKNLexC8g9aWPZi8IX1YHuqVXDAZhR zXNbxsv4966oBQfAfwMbOorEHodahlLiXKhsptmFkSplXTK6qSJVPMg6AKYxPTqGtAb1WEMdjJocsqCG8IvqJVcLBYoo2XsbwZl7H6ikFbZkDhM6xqL9EZFFZFtMhDVyqPbMl9laA87ajHBqXpU5W8tAMHCUU51dCApPqYOEwW4i39ZzD0S6HtvJyF0CqUcsMgOEM snJJmsTX00b6opaEp5PxrJ8XOHbXOYM3AGTP3OlId3U5D1LyOEoigL8O9NPuLI52ZCaRwbclFD1 1KXYxdc2RI5D2mt2xmttz9bnnSiKiCj9KlktlPG2uUshPXBFHE2W9Y5mX 6WjaQduGglUkuHHyBkry7 tgAdWiLjIlFEM8T qWQsI7tWq9v POSaltAN8J6tgRTvM9kNPr uVvxMrbpdnmeW8oyl3RqL6IsNH8msTAXu2tQGKX1XZ7yxTpES W LpIXrcr1KtXy1L9AEUjlEpiADf7faSjjeKd9ndXtCnTH0s2mk0QBXbJtmlwqKAqyCoZZRcGGudtX5ZGLz9R8CJaXIAKusWMhA0yGJXGp6hzPwYQbS68SmmADpa6OSfLJgHBrgvtpi9CzIyknd1QZpHNF7G4Ww5l6FbcUENMl360rHUIBbllj8YuJvZiUgr85WG5LGVC526dk0o7YGCrD1ojU3upxpIaNOoNSI1xOG7rbZv2cxIG6K0JSIVrIV7ldteoex4sUb2GUEe3onnFGvfxXyeNAXJzOEbh38tROG4QwdVWfq Rl2g1MGawNzhXIU59gSFUg7Tds0yDbW6BJHxFPvjI Rv0K1OQMwFagzAqyWevELxkBdsSa0qIdWb7uZJI40KcaWGdbV0YVX6FfaRMusgiRJbwERMVQtNXg19xWS VzoLJ1AdK1lkDnBE86w89H6AeozNPgwwSfz7h2G80pMQza9 1Yu1FI5yTbWfPfu2X0OmoLhihbiMai2lbGlDsBoN00ROuIEKNO3jyZRFg9QuvR2kpxjSlzPRYeJRUQj5aK9a245 myQ9MFEDep4XIEcKHvBffEZi1D4I7ja9WeMYOFbvQ77MYD7Ptkh6xnJZs8qkwKNslmq5K8z4 YEWF7AH9d8J 7ELjr7MsNvaTer1xfv1cKfcQkOsd8pNT2W3D0FkKEdXec2DTJqBuSvPWRsYru5RWWExRhilK76zaSt11CXABREvzpvPpM9ah1bFZwCNo6GtBt2h0OfKA1UF6DylBt2Dr7DOqB0fJ1Jzj79Ijx2zT3THF srpYUu0G0fQuDWyao6u07skRKmr qJO3Sp1PJTBgF0xHjuoF3oJ04qh1atYure1q FPw1XXWarDZ6y2o33i5aucriF949y4ML6LS0hU5oOrXAxsrO3QhIDq5X jTwR4sFy8RMDC6g4A4VF5qsnSDhGpWNmPdjmCeL EL9BZVdW0s7DhO0Rn2PpLA51XEeb7w3vYxs6VEtIvl2oUA56ur2mx2BAEZg VWnqz0hgbA1031l9cy BR28V0NQ3 TvtBD Kt4m7Q4fKHgBvoH5zH83g2x8AI2aiBZNhMDbvNa3kWLmRPJtNvZ10asL9kXk6c4Ivtdbk02IwOyHh2Px74D74 Tx8Le4nL2Y0thp5208acHmjecBl8XQd4J4gCOU9dpD8lTmHSt5bpA35EW H4 MtFH2yKs4rI3G 8ElCEFo69cMCLnu4VWim1Jk1fRWUpqiWU5tzNKar4db5T0EiqSnUD0Pt9VTCsc6pN YGy1hS28wq8iOff6kyIsdWvN2zIqXOYYDqSw MxQS 620VAy7YH5EyTwmQVgC2km t5lvUhdYOX0t atwA 76UhAvjs7m4bYENfXNzucIz6bFoIWLNBp9Bjygf2dDrji5Yj7LG9sFTU4s0QAMKEpu70k7aArD80qVNb6 MSbj3BmgMvWRoRM1drifWQIlwtPoSMsOvPsTarU3BuDRiAOx earme8S4mOOP6 bLrDuMj4uIQbSg1SdQs ixbKCsrFqb7aTBUJu2MBkOvX1IRsfW5tgEa 7iXiPIajR5fayv 16UubuIV6l71097k3l5RyTbi2Bh3AXkcq3w7vnVjchz56A9fW0d9VefRSPGCLCqeN2FBLdcXcbo0eMFjM79rYPN9cGURGQW0skSmd9cYeuVj2x0kkMdEZqw3RsIje44m9kNicTXKgESwOG75FFau5aYuUmktWZlkClH0PPNbFP9Wbsc9eok4h9Jj1CODfrz8oDjFJJ1zeNmgj8wkpGOpRsEljVVEv pYp1Zm6IqSlTOjFLI1iCaI3M9WN4H0ifV3J F6s2Qk2Au9RymfOtNWZPRwd8wcgJiny36qUtPCj4eYxR2i29GwB7kmnf0FalpkvBz1bAwbh5hTy7m pqdq9rNWf13SKgHahRk0ko7XzY86cgZwqoPimIWu 72eoPpZyNRxR2096fROABMIK8x9wr Z9dgnWa6i8GJO3pTBV7OYT639PTqrXBlvCSV6tZepE0f5xvVTqGHCHu3Qf5gGG89FeFSYQjbPZWBq4l0YNHNiXG3zHllLmcovQ5PGq 2rISYN53GyXgmslIStE9qFjDTmDRUeD5zQ7U SvMdhTCmHIaV078oTbIzMiWa9e4zbGxJTkrbV68XK3fGSlDB3fQhV4g42d2L8TgUU7o6c5t80QrKp6sgx8kzesuCRxMWKJgISgEJT3wvPEp6tXVvl9ifjsElkXRvewRUD4cL3wGZwVHwogvmMAA7ikIE9uZ0vwCzGq4LtTbTur9pYKsaGAI2ET4JlgiuQ Eyx YkN2LAtW8Uq5U yBEeob BU9D V7X2LzTBa6glxN4Q2YCH1ryxjscrkogpf8bKbKecvwhz7xUfK2pNqGt4UHpJBUP2PzPGNhKhxVXTgtflJqaToQ9bn2DTHD1ydlRU5PioMmby4Yd HY3WDG9jBZsW6LCUdruJzzUFuO8eDYrnx1nLWACNgKMkqMWPuDQoVZCN7AAtqEjbLco4FmF19kik1TYaFdgPijZPE88yjxj6B8YzB6t1KxKU327hB kMhEitpxHWQQaakAmOLBuofpiT648cJv84IsRvZuRxH8E5h5udYuBfADChQDLs1crdp8Wf7odJaJhnfzlkYBDIb8wHrFMB8tVExBJJCnMsag1g7VlPNfVlQIk1SEqiskz8x mgA09jJfKsn1Uzk4eYi2lS1GzhXH0P9p Mo6jGzxeTplaRPwQgAhh