Chapter 18 Electric Currents Flashcards
Develop an analogy between blood circulation and an electrical circuit. Discuss what plays the role of the heart for the electric case, and so on.
Blood Circulation: Electrical circuit: • heart • battery • blood • current • blood cells • electrons • organs • resistance • blood pressure • voltage • veins/ arteries • wires
Car batteries can be rated in amo here-hours (A•h). What quantity is being rated?
The current of the electrons is being rated.
P = IV
I = Q/t
Q/t • t = Q (charge held in battery)
Can a copper wire and an aluminum wire of the same length have the same resistance? Explain.
Yes, if the cross sectional areas are adjusted so that the resistance are the same.
R = resistivity (length) / cross sectional area
If a rectangular solid made of carbon has sides a, 2a, 3a, how would you connect the wires from a battery so as to obtain (a) the least resistance, (b) the greatest resistance?
R = resistivity (length) / cross sectional area Greatest resistance: a x 2a = cross sec. 3a = L Least resistance: 2a x 3a = cross sec. a = L
Explain why light bulbs almost always burn out just as they are turned on and not after they have been on for some time.
When the bulb is off the temperature and resistance are low, so the current is high. Once the bulb is turned on, the increase in current causes a surge, blowing the bulb.
Electric power is transferred over large distances at very high voltages. Explain how the high voltage reduces power losses in the transmission lines.
P (loss) = I^2 • R. P (delivered) = IV
P (delivered) / V = I
P (loss) = (P (delivered) / V)^2 • R
P (loss) oc I / V^2
High voltages require a greater resistance to maintain the same power.
The greater the voltage the less power lost because they are inversely, exponentially proportional.
Which draws more current, a 100-W lightbulb or a 75-W bulb? which has the highest resistance?
P = I • V P = V^2 / R The greater the power the greater the current and lower the resistance. 100-W has the greater current 75-W has the higher resistance
The heating element in a toaster is made of Nichrome wire. Immediately after the toaster is turned on, is the current (I [rms]) in the wire increasing, decreasing, or staying constant? Explain.
The current decreases because as the toaster heats up, resistance increases, decreasing the current.
R oc T • L / cross sectional area
V = IR
I = 1 / R
Is current used up in a resistor?
No, the electrons/ energy in the current is turned into another form of energy (Thermal). Energy is conserved, and can never be destroyed.
