Once a week.
Subscribe to our weekly newsletter.
What explains the pay gap in women's soccer?
The U.S. Soccer Federation says "market realities" explain the pay gap. Others say it's institutionalized sexism.
Naomi Baker - FIFA / Contributor
- The U.S. women's soccer team recently won its fourth World Cup title.
- The U.S. women's team has been far more successful than the men's team in recent years, yet men still receive higher pay.
- All 28 players on the U.S. women's team have filed a lawsuit against the U.S. Soccer Federation over claims of unequal pay.
The U.S. women's soccer team won its fourth World Cup title on Sunday with a 2-0 victory over the Netherlands. Shortly after, the crowd started chanting "equal pay!" — referencing the claim that the United States Soccer Federation (aka U.S. Soccer) unjustly pays female players less than male players. It's been a long-standing point of contention between female players and U.S. Soccer — which is the body that governs America's national soccer teams — though it was only in March that all 28 female players on the U.S. team decided to sue U.S. Soccer.
The class-action lawsuit claimed that "female players have been consistently paid less money than their male counterparts. This is true even though their performance has been superior to that of the male players – with the female players, in contrast to male players, becoming world champions." The complaint added that U.S. Soccer also failed to provide female players with equal working conditions, promotion and support.
The @USWNT won their fourth World Cup yesterday. These players deserve more than just trophies, the team deserves e… https://t.co/xwG8FYe8wK— Gavin Newsom (@Gavin Newsom)1562607015.0
In a May court filing, U.S. Soccer argued that the pay gap is "based on differences in aggregate revenue generated by the different teams and/or any other factor other than sex." Last week, more than 50 members of Congress signed an open letter to U.S. Soccer President Carlos Cordeiro in support of the women's team. Some lawmakers also expressed support on Twitter. Meanwhile, the women's team's case is heading to mediation.
At this point we shouldn’t even be asking for #EqualPay for the #USWMNT - we should demand they be paid at least tw… https://t.co/npJbMUhnWL— Alexandria Ocasio-Cortez (@Alexandria Ocasio-Cortez)1562520370.0
So, what explains the gender pay gap? How is it fair that the more-successful women's team earns less than the men's team? Does women's soccer simply generate less revenue? Is institutionalized sexism to blame?
There's no immediately clear answer, but you can get some insight by looking at the differences between the men's and women's teams in terms of revenue generation, collective-bargaining agreements and awards from FIFA.
U.S. men's teams have historically generated more revenue than women's teams. But that's beginning to change — at least in terms of gate revenues, which consist mainly of ticket sales. As The Wall Street Journal notes in a recent article:
"From 2016 to 2018, women's games generated about $50.8 million in revenue compared with $49.9 million for the men, according to U.S. soccer's audited financial statements. In 2016, the year after the World Cup, the women generated $1.9 million more than the men."
But only about one-quarter of U.S. Soccer's total operating revenue can be attributed to gate revenues, according to the federation's financial documents. The other revenues come mainly from broadcasting and sponsorships, and it's difficult to parse out which teams contribute more to these revenues because U.S. Soccer sells sponsorships and broadcasting rights as a bundled package.
Still, there's reason to think that the recent success and popularity of the women's team is boosting revenues: Nike chief executive Mark Parker said that the U.S. women's team home jersey "is now the number one soccer jersey, men's or women's, ever sold on Nike.com in one season," according to The Washington Post.
The U.S. men's and women's teams have different collective-bargaining agreements with U.S. Soccer. The most noticeable difference lies in bonus structure and amounts. As a recent piece from The Guardian notes, male players stand to earn more money in bonuses as they progress through a World Cup. But that's just the World Cup: The men's and women's teams earn bonuses (of different kinds and amounts) in other games and tournaments, under a variety of differing conditions. Overall, men earn more in bonuses. But a recent update to the women's team deal has narrowed the bonus gap, and also made it so that female players earn a base salary (male players only earn money through bonuses).
In short, comparing earnings between male and female players is complicated, and a 1:1 comparison is impossible. For 2019, it looks like the women's team will earn more than the men's team — but only because of their extraordinary success, and the men's team's relative failure.
Understanding how the World Cup factors into the soccer pay gap requires some knowledge of the relationship between FIFA and U.S. Soccer.
FIFA runs the World Cup. It determines how much prize money the winning nation's team receives. After that team wins the World Cup, FIFA awards a predetermined purse of prize money to that nation's soccer federation — but those purses vary drastically by gender. As The Washington Post notes:
"Total prize money for the Women's World Cup in 2019 is $30 million — the champions will walk away with about $4 million. For contrast, in the 2018 Men's World Cup, the champions won $38 million from a total pool of about $400 million. In other words, the champions from the men's world cup were awarded more than the total prize money in the women's tournament. So there's no question that there's a huge gap in earning potential here."
Why such a discrepancy? The men's World Cup currently generates more money, by far. For context, FIFA earned upwards of $6 billion from the 2018 men's World Cup. Meanwhile, the women's 2019 World Cup is estimated to earn FIFA about $131 million.
So, even though the U.S. women's team is more successful than the men's team, the numbers suggest that men's soccer is currently a more valuable product — especially on the international stage. That means the male players deserve to earn more, right? Needless to say, not everyone agrees.
A recent op-ed from The New York Times editorial board argues that revenue is "the wrong measuring stick" in this debate.
"United States Soccer is a nonprofit, exempted from taxation because it serves a social purpose: "To make soccer, in all its forms, a pre-eminent sport in the United States," the Times editorial board wrote. "It should be obvious to the people who run the federation that the women's team is fulfilling that mission at least as well as the men's team."
The piece also notes that it's U.S. Soccer — not FIFA — that ultimately gives award money to players, and therefore the federation could use its discretion to pay all players equally. In short, this argument acknowledges that men's soccer brings in more money overall, but says that's not the most important measure by which this debate should be judged.
(It's worth noting the obvious: This current debate about women's soccer is embedded within a broader culture war over gender equality and the gender pay gap, and it's likely that many are treating this story as a proxy battle in that broader war.)
Another point that the Times and others have made in recent days goes something like: Sure, men's soccer earns more money, but that's partly because federations aren't investing enough money into women's soccer. If they did, women's soccer would be more popular and generate more money.
For now, the women's team and U.S. soccer are heading into mediation. The federation maintains that "market realities" are responsible for the pay gap in American soccer. But that could soon change if the women's team can strike a deal with U.S. Soccer on a revenue-sharing model.
"Under this model, player compensation would increase in years in which the USSF derived more revenue from WNT activities and player compensation would be less if revenue from those activities decreased," the 28 U.S. female players wrote in their recent court complaint. "This showed the players' willingness to share in the risk and reward of the economic success of the WNT."
U.S. Soccer "categorically rejected" this model. But the U.S. National Soccer Team Players Association — which is the players union for the United States men's national soccer team — has expressed support for it.
"The United States National Soccer Team Players Association fully supports the efforts of the US Women's National Team Players to achieve equal pay," reads the statement. "Specifically, we are committed to the concept of a revenue-sharing model to address the US Soccer Federation's 'market realities' and find a way towards fair compensation."
Inventions with revolutionary potential made by a mysterious aerospace engineer for the U.S. Navy come to light.
- U.S. Navy holds patents for enigmatic inventions by aerospace engineer Dr. Salvatore Pais.
- Pais came up with technology that can "engineer" reality, devising an ultrafast craft, a fusion reactor, and more.
- While mostly theoretical at this point, the inventions could transform energy, space, and military sectors.
The U.S. Navy controls patents for some futuristic and outlandish technologies, some of which, dubbed "the UFO patents," came to light recently. Of particular note are inventions by the somewhat mysterious Dr. Salvatore Cezar Pais, whose tech claims to be able to "engineer reality." His slate of highly-ambitious, borderline sci-fi designs meant for use by the U.S. government range from gravitational wave generators and compact fusion reactors to next-gen hybrid aerospace-underwater crafts with revolutionary propulsion systems, and beyond.
Of course, the existence of patents does not mean these technologies have actually been created, but there is evidence that some demonstrations of operability have been successfully carried out. As investigated and reported by The War Zone, a possible reason why some of the patents may have been taken on by the Navy is that the Chinese military may also be developing similar advanced gadgets.
Among Dr. Pais's patents are designs, approved in 2018, for an aerospace-underwater craft of incredible speed and maneuverability. This cone-shaped vehicle can potentially fly just as well anywhere it may be, whether air, water or space, without leaving any heat signatures. It can achieve this by creating a quantum vacuum around itself with a very dense polarized energy field. This vacuum would allow it to repel any molecule the craft comes in contact with, no matter the medium. Manipulating "quantum field fluctuations in the local vacuum energy state," would help reduce the craft's inertia. The polarized vacuum would dramatically decrease any elemental resistance and lead to "extreme speeds," claims the paper.
Not only that, if the vacuum-creating technology can be engineered, we'd also be able to "engineer the fabric of our reality at the most fundamental level," states the patent. This would lead to major advancements in aerospace propulsion and generating power. Not to mention other reality-changing outcomes that come to mind.
Among Pais's other patents are inventions that stem from similar thinking, outlining pieces of technology necessary to make his creations come to fruition. His paper presented in 2019, titled "Room Temperature Superconducting System for Use on a Hybrid Aerospace Undersea Craft," proposes a system that can achieve superconductivity at room temperatures. This would become "a highly disruptive technology, capable of a total paradigm change in Science and Technology," conveys Pais.
High frequency gravitational wave generator.
Credit: Dr. Salvatore Pais
Another invention devised by Pais is an electromagnetic field generator that could generate "an impenetrable defensive shield to sea and land as well as space-based military and civilian assets." This shield could protect from threats like anti-ship ballistic missiles, cruise missiles that evade radar, coronal mass ejections, military satellites, and even asteroids.
Dr. Pais's ideas center around the phenomenon he dubbed "The Pais Effect". He referred to it in his writings as the "controlled motion of electrically charged matter (from solid to plasma) via accelerated spin and/or accelerated vibration under rapid (yet smooth) acceleration-deceleration-acceleration transients." In less jargon-heavy terms, Pais claims to have figured out how to spin electromagnetic fields in order to contain a fusion reaction – an accomplishment that would lead to a tremendous change in power consumption and an abundance of energy.
According to his bio in a recently published paper on a new Plasma Compression Fusion Device, which could transform energy production, Dr. Pais is a mechanical and aerospace engineer working at the Naval Air Warfare Center Aircraft Division (NAWCAD), which is headquartered in Patuxent River, Maryland. Holding a Ph.D. from Case Western Reserve University in Cleveland, Ohio, Pais was a NASA Research Fellow and worked with Northrop Grumman Aerospace Systems. His current Department of Defense work involves his "advanced knowledge of theory, analysis, and modern experimental and computational methods in aerodynamics, along with an understanding of air-vehicle and missile design, especially in the domain of hypersonic power plant and vehicle design." He also has expert knowledge of electrooptics, emerging quantum technologies (laser power generation in particular), high-energy electromagnetic field generation, and the "breakthrough field of room temperature superconductivity, as related to advanced field propulsion."
Suffice it to say, with such a list of research credentials that would make Nikola Tesla proud, Dr. Pais seems well-positioned to carry out groundbreaking work.
A craft using an inertial mass reduction device.
Credit: Salvatore Pais
The patents won't necessarily lead to these technologies ever seeing the light of day. The research has its share of detractors and nonbelievers among other scientists, who think the amount of energy required for the fields described by Pais and his ideas on electromagnetic propulsions are well beyond the scope of current tech and are nearly impossible. Yet investigators at The War Zone found comments from Navy officials that indicate the inventions are being looked at seriously enough, and some tests are taking place.
If you'd like to read through Pais's patents yourself, check them out here.
Laser Augmented Turbojet Propulsion System
Credit: Dr. Salvatore Pais
China has reached a new record for nuclear fusion at 120 million degrees Celsius.
This article was originally published on our sister site, Freethink.
China wants to build a mini-star on Earth and house it in a reactor. Many teams across the globe have this same bold goal --- which would create unlimited clean energy via nuclear fusion.
But according to Chinese state media, New Atlas reports, the team at the Experimental Advanced Superconducting Tokamak (EAST) has set a new world record: temperatures of 120 million degrees Celsius for 101 seconds.
Yeah, that's hot. So what? Nuclear fusion reactions require an insane amount of heat and pressure --- a temperature environment similar to the sun, which is approximately 150 million degrees C.
If scientists can essentially build a sun on Earth, they can create endless energy by mimicking how the sun does it.
If scientists can essentially build a sun on Earth, they can create endless energy by mimicking how the sun does it. In nuclear fusion, the extreme heat and pressure create a plasma. Then, within that plasma, two or more hydrogen nuclei crash together, merge into a heavier atom, and release a ton of energy in the process.
Nuclear fusion milestones: The team at EAST built a giant metal torus (similar in shape to a giant donut) with a series of magnetic coils. The coils hold hot plasma where the reactions occur. They've reached many milestones along the way.
According to New Atlas, in 2016, the scientists at EAST could heat hydrogen plasma to roughly 50 million degrees C for 102 seconds. Two years later, they reached 100 million degrees for 10 seconds.
The temperatures are impressive, but the short reaction times, and lack of pressure are another obstacle. Fusion is simple for the sun, because stars are massive and gravity provides even pressure all over the surface. The pressure squeezes hydrogen gas in the sun's core so immensely that several nuclei combine to form one atom, releasing energy.
But on Earth, we have to supply all of the pressure to keep the reaction going, and it has to be perfectly even. It's hard to do this for any length of time, and it uses a ton of energy. So the reactions usually fizzle out in minutes or seconds.
Still, the latest record of 120 million degrees and 101 seconds is one more step toward sustaining longer and hotter reactions.
Why does this matter? No one denies that humankind needs a clean, unlimited source of energy.
We all recognize that oil and gas are limited resources. But even wind and solar power --- renewable energies --- are fundamentally limited. They are dependent upon a breezy day or a cloudless sky, which we can't always count on.
Nuclear fusion is clean, safe, and environmentally sustainable --- its fuel is a nearly limitless resource since it is simply hydrogen (which can be easily made from water).
With each new milestone, we are creeping closer and closer to a breakthrough for unlimited, clean energy.
The symbol for love is the heart, but the brain may be more accurate.
- How love makes us feel can only be defined on an individual basis, but what it does to the body, specifically the brain, is now less abstract thanks to science.
- One of the problems with early-stage attraction, according to anthropologist Helen Fisher, is that it activates parts of the brain that are linked to drive, craving, obsession, and motivation, while other regions that deal with decision-making shut down.
- Dr. Fisher, professor Ted Fischer, and psychiatrist Gail Saltz explain the different types of love, explore the neuroscience of love and attraction, and share tips for sustaining relationships that are healthy and mutually beneficial.