Grave antisemitismo en un centro judío de California

grave-antisemitismo-en-san-francisco-hillel-un-centro-judio-de-california
grave-antisemitismo-en-san-francisco-hillel-un-centro-judio-de-california

San Francisco Hillel, un centro de vida judía que atiende a estudiantes universitarios de toda la ciudad, fue vandalizado anoche con la palabra «Khaybar».

Khaybar hace referencia a cuando los musulmanes en el año 628 d.C. masacraron a todos los judíos. Esto es una amenaza directa contra la comunidad judía en San Francisco.

Al Centro SF Hillel lo crearon para apoyar a todos los estudiantes judíos en San Francisco y fortalecer el futuro del pueblo judío. Aprende sobre la relación de cada estudiante con el judaísmo y luego los ayudamos a explorar su identidad judía, construir una comunidad judía y desarrollarlo como futuros líderes judíos.

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San Francisco Hillel crea conexiones reflexivas y significativas para los estudiantes judíos entre sí, con la comunidad judía más amplia del Área de la Bahía y con Israel, para que cada estudiante pueda desarrollar y fortalecer su identidad judía. Al hacerlo, al SF Hillel se lo reconoce como una parte integral de la comunidad judía del Área de la Bahía, lo que ayuda a hacer de San Francisco un destino atractivo para los estudiantes judíos. Es financieramente resilientes y asegura que puede satisfacer las necesidades de los estudiantes para las generaciones venideras.

El SF Hillel está comprometido con la vida judía pluralista en el campus, una fuerza laboral diversa y los valores de la inclusión. Abrazamos todas las identidades, experiencias y antecedentes que trae cada persona. Damos una bienvenida respetuosa a estudiantes, profesionales y miembros de la comunidad de todas las capacidades, razas, etnias, antecedentes socioeconómicos, identidades de género, orientaciones sexuales, observancias y antecedentes interreligiosos, para que podamos trabajar juntos para contribuir y experimentar la riqueza total de la vida y la comunidad judías

Foto gentileza: #Media Oriente – @VeoIsrael

22 COMENTARIOS

  1. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  2. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  3. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  4. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  5. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  6. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  7. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  8. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  9. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  10. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  11. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  12. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  13. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  14. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  15. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  16. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  17. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  18. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  19. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  20. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  21. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

  22. DC Link is a connection between a rectifier and an inverter. It acts as energy storage device between two stages. DC Link circuits are found in converter circuits or variable frequency drives (VFD). DC link capacitors, energy storage components in these circuits, are crucial in electric vehicles, serving as buffer between different power sources and loads, protecting systems from spikes and EMI. They play a key role in inverters and converters, keep voltage stable and absorb current ripples for efficient operations of systems. Today, advanced power electronics technology has spread the use of DC to AC converters, and DC link circuits are found everywhere.

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