Ohm's Law: Explaining V, I, R, C, and Jt/c2

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SUMMARY

Ohm's Law is defined by the formula V = I * R, where V represents voltage, I represents current, and R represents resistance. The discussion highlights the relationship between current (I), charge (C), and time (T), specifically noting that I = C/T. Additionally, it is established that resistance (R) can be expressed as R = V/I and R = Jt/c², indicating that an increase in time (T) results in an increase in resistance (R) when the same amount of charge flows through. This confirms the direct relationship between time and resistance in the context of Ohm's Law.

PREREQUISITES
  • Understanding of Ohm's Law and its components: Voltage (V), Current (I), and Resistance (R)
  • Basic knowledge of electrical charge (C) and its relationship with time (T)
  • Familiarity with the concept of energy (J) in electrical systems
  • Ability to manipulate algebraic equations involving these electrical concepts
NEXT STEPS
  • Study the derivation and applications of Ohm's Law in electrical circuits
  • Explore the relationship between charge, current, and time in greater detail
  • Learn about the implications of resistance changes in practical electrical systems
  • Investigate the role of energy (J) in electrical work and its relationship to charge and time
USEFUL FOR

Students of physics, electrical engineers, and anyone interested in understanding the fundamentals of electrical circuits and the implications of Ohm's Law.

falcon102
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Hi
I really have confuse about some formula I did, I'll tell u, it is made by Ohm law ok,

everyone knows V= I*R
the I is current and it I= C\T, C = coulomb Right
and V = J \ c

SO R = V \ I Ohm law

R = Jt\ c2 In this formula the T if it increasing the R will increase too

this is right or no, plase if anyone can explain to me!
 
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If the same number of coulombs flow through a resistance in a larger time period, then certainly the resistance is larger.

- Warren
 

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