Kaidah Tangan Kanan Pada Arah Gaya Lorentz Berita Info

Kaidah tangan kanan digunakan dalam fisika untuk menentukan arah gaya Lorentz pada partikel bermuatan yang bergerak dalam medan magnetik atau listrik. Para pembaca Berita Info. Kaidah ini didasarkan pada aturan tangan kanan, di mana jari-jari tangan kanan digunakan untuk menentukan arah vektor tertentu.

#Kaidah #Tangan #Kanan #Arah #Gaya #Lorentz #Berita #Info

Lanjutkan :

Berita Info https://www.beritainfo.com/2023/06/kaidah-tangan-kanan-pada-arah-gaya.html

#Starlink 🛰️ uses #HallEffectThrusters, which is a kind of #SpacecraftElectricPropulsion https://en.wikipedia.org/wiki/Spacecraft_electric_propulsion. 70% of the recent poll have just been plain wrong 🔮 about the type of #propulsion : https://en.wikipedia.org/wiki/Ion_thruster#Starlink
#HallEffectThruster (#IonThruster engines) use an #electrostatic potential to accelerate #ions up to high speeds https://en.wikipedia.org/wiki/Hall-effect_thruster#Principle_of_operation
#Electromagnetic thrusters (#PlasmaPropulsion engines) accelerate #ions either by the #Lorentz force or by the effect of electromagnetic fields where the electric field is not in the direction of the acceleration https://en.wikipedia.org/wiki/Plasma_propulsion_engine#Engine_types
It's all explained by #GalileoGalilei 📆 1564, #MichaelFaraday 📆 1791, #HendrikLorentz 📆 1853, #AlbertEinstein 📆 1879.Also check #Minkowski's 📆 1864 #spacetime 🤔 https://en.wikipedia.org/wiki/Minkowski_spacetime. Short after the #StoneAge 🐒 , #carburetors were usual, fueled by fossilized remains of dead plants 😁 https://en.wikipedia.org/wiki/Carburetor

#Starlink 🛰️ uses #HallEffectThrusters, which is a kind of #SpacecraftElectricPropulsion https://en.wikipedia.org/wiki/Spacecraft_electric_propulsion. 70% of the recent poll have just been plain wrong 🔮 about the type of #propulsion : https://en.wikipedia.org/wiki/Ion_thruster#Starlink
#HallEffectThruster (#IonThruster engines) use an #electrostatic potential to accelerate #ions up to high speeds https://en.wikipedia.org/wiki/Hall-effect_thruster#Principle_of_operation
#Electromagnetic thrusters (#PlasmaPropulsion engines) accelerate #ions either by the #Lorentz force or by the effect of electromagnetic fields where the electric field is not in the direction of the acceleration https://en.wikipedia.org/wiki/Plasma_propulsion_engine#Engine_types
It's all explained by #GalileoGalilei 📆 1564, #MichaelFaraday 📆1791, #HendrikLorentz 📆 1853, #AlbertEinstein 📆 1879.Also check #Minkowski's 📆 1864 #spacetime 🤔 https://en.wikipedia.org/wiki/Minkowski_spacetime. Short after the #StoneAge 🐒 , #carburetors were usual, fueled by fossilized remains of dead plants 😁 https://en.wikipedia.org/wiki/Carburetor

One of my favorite #scikit-hep #python packages is #vector https://github.com/scikit-hep/vector by @henryiii et.al. Provides #numpy / akward-arrays of 3 & 4-vectors with broadcasted vector methods, including relativistic operations such as #lorentz boosting, as one might now from #ROOT vectors. Such a nice abstraction, writing vector math is as easy as doing it by hand and also runs super fast. Using this package almost feels like cheating. 1/N

One of my favorite #scikit-hep #python packages is #vector https://github.com/scikit-hep/vector by @henriii@fosstodon.org et.al. Provides #numpy / akward-arrays of 3 & 4-vectors with broadcasted vector methods, including relativistic operations such as #lorentz boosting, as one might now from #ROOT vectors. Such a nice abstraction, writing vector math is as easy as doing it by hand and also runs super fast. Using this package almost feels like cheating. 1/N