![Question Video: Finding the Strength of a Uniform Magnetic Field from the Force Experienced by a Current-Carrying Wire | Nagwa Question Video: Finding the Strength of a Uniform Magnetic Field from the Force Experienced by a Current-Carrying Wire | Nagwa](https://media.nagwa.com/740128689501/en/thumbnail_l.jpeg)
Question Video: Finding the Strength of a Uniform Magnetic Field from the Force Experienced by a Current-Carrying Wire | Nagwa
![Tesla = Newton per Ampere per Meter. 1 Tesla = 1 N A-1 m-1. Important short questions of 2nd Year. - YouTube Tesla = Newton per Ampere per Meter. 1 Tesla = 1 N A-1 m-1. Important short questions of 2nd Year. - YouTube](https://i.ytimg.com/vi/dSfl2G-lVgQ/hqdefault.jpg)
Tesla = Newton per Ampere per Meter. 1 Tesla = 1 N A-1 m-1. Important short questions of 2nd Year. - YouTube
![Tesla = Newton per Ampere per Meter. 1 Tesla = 1 N A-1 m-1. Important short questions of 2nd Year. - YouTube Tesla = Newton per Ampere per Meter. 1 Tesla = 1 N A-1 m-1. Important short questions of 2nd Year. - YouTube](https://i.ytimg.com/vi/rvGs8X2lNWI/sddefault.jpg)
Tesla = Newton per Ampere per Meter. 1 Tesla = 1 N A-1 m-1. Important short questions of 2nd Year. - YouTube
![SOLVED: Newton (N) = kg | m / 82 Joule (J) = N * m = kg * m² / 82 Farad (F) Coulomb Volt = 9 Ampere (A) Coulomb = 8 SOLVED: Newton (N) = kg | m / 82 Joule (J) = N * m = kg * m² / 82 Farad (F) Coulomb Volt = 9 Ampere (A) Coulomb = 8](https://cdn.numerade.com/ask_images/7f476bfa142d4eb38de4d768ee25c15e.jpg)