Violento acto antisemita contra un directivo universitario en Estados Unidos

Violento acto antisemita contra un directivo universitario en Estados Unidos Jordan Acker
Violento acto antisemita contra un directivo universitario en Estados Unidos Jordan Acker

Jordan Acker, un miembro judío de la junta directiva de la Universidad de Michigan se despertó el lunes y encontró su ventana rota y un grafiti antiisraelí en el auto de su esposa, la tercera vez que es víctima de vandalismo relacionado con la guerra entre Israel y Hamás.

El hombre, un abogado y demócrata de Huntington Woods, Michigan, compartió en Instagram que él y su familia se despertaron por los sonidos de dos objetos pesados ​​​​que fueron arrojados a través de la ventana delantera de su casa.

El coche de la esposa de Acker estaba pintado con un triángulo rojo invertido (un símbolo que Hamás utiliza para marcar sus objetivos en vídeos de propaganda), así como con las palabras “DESINVERSIÓN” y “PALESTINA LIBRE” escritas en rojo.

En su publicación, Jordan Acker calificó el vandalismo como “propio del Ku Klux Klan”.

Como siempre hacemos en esta gran nación cuando nos enfrentamos al terrorismo, no permitiré que el miedo gane”, escribió.

Todo esto no hace más que reforzar mi determinación de seguir haciendo lo correcto para la universidad y para los votantes de Michigan que me eligieron”, continuó.

El directivo añadió que hace «un llamamiento a los miembros de la comunidad de Michigan para que repudien públicamente esta vil intimidación antisemita y ofrezcan pleno apoyo a las fuerzas del orden para erradicar a estos intolerantes para que vean las consecuencias de sus acciones”.

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Por su parte, la universidad calificó el vandalismo como “un claro acto de intimidación antisemita”.

La Universidad de Michigan condena estos actos criminales en los términos más enérgicos posibles”, dijo la entidad en un comunicado.

Son abominables y, lamentablemente, solo el último de una serie de incidentes en los que personas han sido acosadas debido a su trabajo en nombre de la universidad. Esto es inaceptable y no será tolerado. Hacemos un llamado a nuestra comunidad para que se una en solidaridad y rechace firmemente todas las formas de intolerancia y violencia”, concluyó.

Fuente: Times of Israel.

18 COMENTARIOS

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  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.

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