Public schools have been serving all students free meals since the COVID-19 pandemic first disrupted K-12 education. In March 2022, Congress rejected calls to keep up the federal funding required to sustain that practice and left that money out of a US$1.5 trillion spending package that President Joe Biden signed into law on March 11, 2022. We asked food policy expert Marlene Schwartz to explain why free meals make a difference and what will happen next.
How did the COVID-19 pandemic initially affect the school lunch program?
In March 2020, nearly all U.S. K-12 school buildings closed due to the COVID-19 pandemic.
The U.S. Department of Agriculture, which administers the federal government’s National School Lunch Program, quickly granted waivers to increase program flexibility and accommodate the challenges of the pandemic.
These waivers, which have been renewed several times, were critically important for school food service programs as the programs abruptly shifted away from serving meals in cafeterias and designed new distribution models to continue to feed students. Many school meal staff across the country created grab-and-go meals that families could pick up, which was particularly important in the spring of 2020 and the following school year. Another major change, which has continued during the 2021-2022 school year, is that school systems are able to serve meals to all students at no cost.
Prior to the COVID-19 pandemic, nearly 30 million lunches were served every school day to K-12 students through the National School Lunch Program. Schools provided roughly three-quarters of those meals at reduced rates or no cost at all – with the federal government reimbursing a portion of the cost of those meals.
Children like these in Santa Fe, N.M., could pick up bagged meals at bus stops when their schools had closed their doors amid virus outbreaks in 2020 and 2021. AP Photo/Cedar Attanasio
How much money is involved?
The program cost $14 billion in 2019, before the pandemic disrupted it.
The price of a school lunch for families without free or reduced-cost meals varies. In 2017, full-price lunches tended to run between $2.50 and $2.75 apiece.
Are all public school students still getting free meals?
Yes. However, that will no doubt change once the latest waiver expires on June 30, 2022.
Advocates urged Congress to keep funding school nutrition programs at higher levels. But Congress did not include that money in the $1.5 trillion spending bill House and Senate lawmakers passed in March 2022.
This means that next fall, most schools will have to resume the old three-tiered system where some families don’t pay at all, some receive discounted lunches, and others must pay full price.
Two states will buck that trend. California and Maine will continue providing universal school meals after the federal waiver ends due to measures their state legislators passed and governors signed into law during the COVID-19 pandemic.
At the federal level, more than a dozen senators and roughly 50 members of the House of Representatives backed proposed legislation in 2021 that would permanently make school lunch free for all students, regardless of their income. There is significant support for this idea among advocates, but the future of this type of federal legislation remains to be seen.
What are the advantages of making school meals free to everyone?
In my view, the biggest advantage to universal school meals is that more students actually eat nutritious school meals. Following the regulations that emerged from the 2010 Healthy Hunger-Free Kids Act, the nutritional quality of school meals improved significantly, and a recent study found that schools typically provide the healthiest foods that children eat all day.
The research shows that making school meals free for everyone improves attendance and boosts diet quality. It also decreases the risk of food insecurity and the stigma associated with receiving a free meal. When no one has to pay, the growing problem of school meal debt is also eliminated.
There are important logistical benefits to universal school meals. Families don’t have to fill out any paperwork to establish their eligibility for free or reduced-price meals. And cafeteria staff can focus on serving the meals if they don’t need to track payments.
What’s wrong with charging some students for lunch again?
You have to look at the costs and benefits of the big picture. Universal school meals provide significant benefits to the school community as a whole – most notably, reductions in food insecurity and improvements in student diet quality. I believe these benefits are far greater than the marginal cost of providing free meals to students who would otherwise pay.
The fall of 2022 is also much too early to revert back to the three-tiered system because school food programs continue to face significant challenges. Supply chain disruptions have made it harder to buy some kinds of food, including chicken and whole grain products. In addition, many schools are having trouble hiring the staff they need to prepare and serve the meals, and inflation is increasing food costs.
What do you see happening in the future?
Ideally, the federal government will reconsider this issue and support universal school meals.
If that does not happen, advocates, policymakers and researchers will be watching what happens in California and Maine. We will be able to compare what happens in these states versus those that do not continue to provide all students with free meals. My hope is that this information will inform future decisions about implementing universal school meals for all students nationally.
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Marlene B. Schwartz receives funding from the USDA and the Connecticut State Department of Education.
This article is republished from The Conversation under a Creative Commons license.
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8 real-life applications for math equations you learned in high school
Canva
Let’s face it: Math can be a polarizing subject, especially among high school students who don’t think they’ll ever use it again after graduation. Sometimes kids might dread their mathematics class because of the memorization needed to keep the rules and formulas straight or the exact calculations required—after all, just one stray decimal point can lead to lots of mistakes.
However, whether you realize it or not, mathematical equations are part of just about every area of your life, from architecture and cooking to tomorrow’s weather forecast. It can even be found in online security and evaluating the lives at risk in the event of a natural disaster.
Some of the most common branches of math include trigonometry, calculus, algebra, geometry, and statistics. From these areas of study stem equations that can be used to explore and even construct the world for the betterment of mankind.
Study.com put together a list of the real-life uses for eight math equations, compiling resources from universities, national agencies, and online learning platforms.
Canva
Let’s face it: Math can be a polarizing subject, especially among high school students who don’t think they’ll ever use it again after graduation. Sometimes kids might dread their mathematics class because of the memorization needed to keep the rules and formulas straight or the exact calculations required—after all, just one stray decimal point can lead to lots of mistakes.
However, whether you realize it or not, mathematical equations are part of just about every area of your life, from architecture and cooking to tomorrow’s weather forecast. It can even be found in online security and evaluating the lives at risk in the event of a natural disaster.
Some of the most common branches of math include trigonometry, calculus, algebra, geometry, and statistics. From these areas of study stem equations that can be used to explore and even construct the world for the betterment of mankind.
Study.com put together a list of the real-life uses for eight math equations, compiling resources from universities, national agencies, and online learning platforms.
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8 real-life applications for math equations you learned in high school
Dragon Images // Shutterstock
The Pythagorean theorem is a fundamental mathematical equation named for the Greek mathematician Pythagoras who discovered it. The Pythagorean theorem works like this: The hypotenuse of a triangle—the side that is on the opposite side of the 90-degree angle—is equal to the sum of the squares of the other two sides of the triangle. The Pythagorean theorem has many practical, real-world applications and is used regularly in architectural design. You can see evidence of it in bridges, ramps, houses, and buildings. For example, houses utilize right triangles and the Pythagorean theorem to shape sloped roofs with the 90-degree angle located at the top.
Dragon Images // Shutterstock
The Pythagorean theorem is a fundamental mathematical equation named for the Greek mathematician Pythagoras who discovered it. The Pythagorean theorem works like this: The hypotenuse of a triangle—the side that is on the opposite side of the 90-degree angle—is equal to the sum of the squares of the other two sides of the triangle. The Pythagorean theorem has many practical, real-world applications and is used regularly in architectural design. You can see evidence of it in bridges, ramps, houses, and buildings. For example, houses utilize right triangles and the Pythagorean theorem to shape sloped roofs with the 90-degree angle located at the top.
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8 real-life applications for math equations you learned in high school
Frame Stock Footage // Shutterstock
You probably learned about sine and cosine functions in a high school precalculus class. In their simplest terms, sine and cosine are mathematical equations that determine the size, shape, and angle of a right triangle. The functions serve an important role in both space and aircraft flights and are used by aerospace engineers at institutions like NASA. A shuttle that’s sent into space may be used to orbit the Earth. To accomplish this, scientists need to calculate the shuttle’s orbit curve in relation to the Earth’s equator, creating an orbit curve that’s similar to a sine curve.
Frame Stock Footage // Shutterstock
You probably learned about sine and cosine functions in a high school precalculus class. In their simplest terms, sine and cosine are mathematical equations that determine the size, shape, and angle of a right triangle. The functions serve an important role in both space and aircraft flights and are used by aerospace engineers at institutions like NASA. A shuttle that’s sent into space may be used to orbit the Earth. To accomplish this, scientists need to calculate the shuttle’s orbit curve in relation to the Earth’s equator, creating an orbit curve that’s similar to a sine curve.
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8 real-life applications for math equations you learned in high school
H_Ko // Shutterstock
Back in high school chemistry, you might recall dipping tiny strips of paper into substances and watching whether the paper turned a different color. In these instances, you were most likely testing the acidity of a substance or solution, or measuring the pH scale. To do this, you need to utilize logarithms in your equations. A logarithm is defined as what power a number must be increased to in order to reach a different value. Measuring pH is important when it comes to measuring the acidity in everyday substances such as water and soil. Chemists also need to balance the correct pH in household products including cleaners, dishwashing detergent, toothpaste, and skincare products to ensure they're safe and effective.
H_Ko // Shutterstock
Back in high school chemistry, you might recall dipping tiny strips of paper into substances and watching whether the paper turned a different color. In these instances, you were most likely testing the acidity of a substance or solution, or measuring the pH scale. To do this, you need to utilize logarithms in your equations. A logarithm is defined as what power a number must be increased to in order to reach a different value. Measuring pH is important when it comes to measuring the acidity in everyday substances such as water and soil. Chemists also need to balance the correct pH in household products including cleaners, dishwashing detergent, toothpaste, and skincare products to ensure they're safe and effective.
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8 real-life applications for math equations you learned in high school
elRoce // Shutterstock
Probability equations are similar to how they sound—mathematical equations used to predict the likelihood of an event. Probability equations serve an important purpose when it comes to evaluating disaster risk. For example, the Office of Disaster Preparedness and Management calculates risk by multiplying the “probability of hazard” by the degree of vulnerability. If a natural disaster, such as a hurricane, was expected to impact a certain region, scientists would perform a disaster risk assessment using probability equations to evaluate the potential liability and loss to property and even human life. Scientists weigh acceptable risk and residual risk which, respectively, is risk that is deemed tolerable and risk that may occur even when preventive measures are in place.
elRoce // Shutterstock
Probability equations are similar to how they sound—mathematical equations used to predict the likelihood of an event. Probability equations serve an important purpose when it comes to evaluating disaster risk. For example, the Office of Disaster Preparedness and Management calculates risk by multiplying the “probability of hazard” by the degree of vulnerability. If a natural disaster, such as a hurricane, was expected to impact a certain region, scientists would perform a disaster risk assessment using probability equations to evaluate the potential liability and loss to property and even human life. Scientists weigh acceptable risk and residual risk which, respectively, is risk that is deemed tolerable and risk that may occur even when preventive measures are in place.
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8 real-life applications for math equations you learned in high school
SmartPhotoLab // Shutterstock
If you ever studied biology in high school, you may remember exponential functions being mentioned. This equation can be used to measure population growth over time. Exponential functions are often used in biological studies to measure bacterial growth and decay. For example, if a bacterial cell splits itself into two, then each of those two cells split into two, you’ll quickly have bacteria cells in numbers of four, then eight, then 16, then 32, and so on. The use of exponential functions is important to science as it can help track the growth of diseases and viruses.
SmartPhotoLab // Shutterstock
If you ever studied biology in high school, you may remember exponential functions being mentioned. This equation can be used to measure population growth over time. Exponential functions are often used in biological studies to measure bacterial growth and decay. For example, if a bacterial cell splits itself into two, then each of those two cells split into two, you’ll quickly have bacteria cells in numbers of four, then eight, then 16, then 32, and so on. The use of exponential functions is important to science as it can help track the growth of diseases and viruses.
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8 real-life applications for math equations you learned in high school
Rawpixel.com // Shutterstock
The Fibonacci series is a sequence of numbers in which each consecutive number is equal to the sum of the two numbers that come before it. For instance, if you start with the number zero, this is what a Fibonacci series would look like: 0, 1, 1, 2, 3, 5, 8, 13, and so on. The Fibonacci series is famously found in nature—trees, flowers, and other naturally occurring spiral structures grow leaves and petals that follow the sequence. It's also particularly useful when it comes to cryptology, the study of codes and how to solve them. With modern technology, the Fibonacci series can be used to encrypt sensitive information over the internet for security purposes.
Rawpixel.com // Shutterstock
The Fibonacci series is a sequence of numbers in which each consecutive number is equal to the sum of the two numbers that come before it. For instance, if you start with the number zero, this is what a Fibonacci series would look like: 0, 1, 1, 2, 3, 5, 8, 13, and so on. The Fibonacci series is famously found in nature—trees, flowers, and other naturally occurring spiral structures grow leaves and petals that follow the sequence. It's also particularly useful when it comes to cryptology, the study of codes and how to solve them. With modern technology, the Fibonacci series can be used to encrypt sensitive information over the internet for security purposes.
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8 real-life applications for math equations you learned in high school
Monkey Business Images // Shutterstock
Whether you’re a chef, baker, or home cook, chances are you’ve had to incorporate fractions in the kitchen beyond the use of measuring cups and spoons. Fractions represent a portion of a whole. For example, one quarter is equal to 25% of a whole, and a half of that is one-eighth of that whole. Fractions may come particularly handy when cooking as you come across recipes that don’t represent the number of servings you need to prepare or other instances where you may have to do the math on the fly. For example, if you’re cooking for four people and the recipe was developed for eight people, you'll need to correctly divide all your ingredients in half or you’ll end up with too much food—or a dish that didn’t come out right because you added too much of an ingredient.
Monkey Business Images // Shutterstock
Whether you’re a chef, baker, or home cook, chances are you’ve had to incorporate fractions in the kitchen beyond the use of measuring cups and spoons. Fractions represent a portion of a whole. For example, one quarter is equal to 25% of a whole, and a half of that is one-eighth of that whole. Fractions may come particularly handy when cooking as you come across recipes that don’t represent the number of servings you need to prepare or other instances where you may have to do the math on the fly. For example, if you’re cooking for four people and the recipe was developed for eight people, you'll need to correctly divide all your ingredients in half or you’ll end up with too much food—or a dish that didn’t come out right because you added too much of an ingredient.
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8 real-life applications for math equations you learned in high school
Andrey Burmakin // Shutterstock
If you took algebra in high school, at some point you may have come across the binomial theorem. But did you know how influential this equation is to predict the weather? Weather forecasts can help prepare for events like winter storms, torrential rainfall, and beautiful sunny days. However, weather predictions would be difficult without the help of the binomial theorem. Put simply, this is a complex formula used to increase powers in a binomial expression. By using probabilities, scientists can utilize binomial theorems to make weather predictions.
This story originally appeared on Study.com and was produced and distributed in partnership with Stacker Studio.
Andrey Burmakin // Shutterstock
If you took algebra in high school, at some point you may have come across the binomial theorem. But did you know how influential this equation is to predict the weather? Weather forecasts can help prepare for events like winter storms, torrential rainfall, and beautiful sunny days. However, weather predictions would be difficult without the help of the binomial theorem. Put simply, this is a complex formula used to increase powers in a binomial expression. By using probabilities, scientists can utilize binomial theorems to make weather predictions.
This story originally appeared on Study.com and was produced and distributed in partnership with Stacker Studio.
Children like these in Santa Fe, N.M., could pick up bagged meals at bus stops when their schools had closed their doors amid virus outbreaks in 2020 and 2021. AP Photo/Cedar Attanasio