<p>Play this crossword inspired by the July/August 2026 issue of<i> Scientific American</i></p>
Vetenskapsnyheter
<p>How did we get here?</p>
<p>Letters to the editors for the March 2026 issue of <i>Scientific American</i></p>
<p>A meditation on life and the von Neumann–Wigner interpretation of quantum mechanics</p>
<p>On reclaiming America’s edge in research and public health</p>
<p>Exploring ice cores to foresee the effects of climate change</p>
<p>These young scientists are making waves in their own ways. Keep an eye on them—great things are ahead</p>
<p>On safeguarding independent research in the age of big tech</p>
<p>The story of the author’s extremely early career</p>
<p>Using viruslike particles to deliver therapies safely and effectively</p>
<p>Mimicking the chemistry of outer space to explain how planets form</p>
<p>On fighting for truth, inclusion and the next generation of scientists</p>
<p>It’s a complicated time to be a young scientist in America. Lessons from history can tell us what the future might hold</p>
<p>Clocking the electrical messages between neurons using fluorescence</p>
<p>On steering the path forward for research and innovation</p>
<p>The great American brain drain could define science for a generation</p>
<p>Explaining how climate change affects ecological diversity and human health</p>
<p>Despite funding woes, American scientists are finding reasons for optimism</p>
<p>Making catalysts used in industrial processes hardier and more effective</p>
<p>Scientists are seen as oddballs, and that’s a problem</p>
<p>The federal funding system for scientific research in the U.S. is crumbling. Here’s how it can be rebuilt</p>
<p>Creating artificial-intelligence tools for cancer detection</p>
<p>Robots and AI are running experiments around the clock, from battery chemistry to cancer therapies. But can they be trusted to get it right?</p>
<p>Applying new tools to behavioral tests to discern how we learn</p>
<p>Inventing better materials to improve solar energy</p>