Faradays Law of Induction If C is a
- Slides: 39
Faraday’s Law of Induction If C is a stationary closed curve and S is a surface spanning C then The changing magnetic flux through S induces a non-electrostatic electric field whose line integral around C is non-zero 1
Problem: Calculating Induced Electric Field Consider a uniform magnetic field which points into the page and is confined to a circular region with radius R. Suppose the magnitude increases with time, i. e. d. B/dt > 0. Find the magnitude and direction of the induced electric field in the regions (i) r < R, and (ii) r > R. (iii) Plot the magnitude of the electric field as a function r. 2
W 10 D 2 DC Circuits Today’s Reading Assignment W 10 D 2 DC Circuits & Kirchhoff’s Loop Rules Course Notes: Sections 7. 1 -7. 5 3
Announcements PS 8 due Week 11 Tuesday at 9 pm in boxes outside 32 -082 or 26 -152 Next Reading Assignment W 10 D 3 PS 07: Ph. ET: Building a Circuit 7. 1 -7. 5, 7. 10 Exam 3 Thursday April 18 7: 30 pm – 9: 30 pm 4
Outline DC Circuits Kirchoff’s Laws Electrical Power Measuring Voltage and Current 5
DC Circuits 6
Examples of Circuits 7
Symbols for Circuit Elements Battery Resistor Capacitor Switch Equipotential Junction Branch 8
Electromotive Force (EMF) The work per unit charge around a closed path done is called electromotive force EMF. This is a bad name because it is not a force. Let denote the force per unit charge, then the EMF is If a conducting closed path is present then 9
Ideal Battery 1) Inside Battery: chemical force non-zero inside battery (zero outside) moves charges through a region in which static electric field opposes motion 2) Ideal battery: net force on charges is zero 3) Potential difference between its terminals 4) Extend path through external circuit where 10
Sign Conventions - Battery Moving from the negative to positive terminal of a battery increases your potential 11
Sign Conventions - Resistor Moving across a resistor in the direction of current decreases your potential 12
Internal Resistance Real batteries have an internal resistance, r, which is small but non-zero Terminal voltage: (Even if you short the leads you don’t get infinite current)
Series vs. Parallel Series Parallel 14
Resistors In Series The same current I must flow through both resistors 15
Resistors In Parallel Voltage drop across the resistors must be the same 16
Measuring Voltage & Current 17
Measuring Potential Difference A voltmeter must be hooked in parallel across the element you want to measure the potential difference across Voltmeters have a very large resistance, so that they don’t affect the circuit too much 18
Measuring Current An ammeter must be hooked in series with the element you want to measure the current through Ammeters have a very low resistance, so that they don’t affect the circuit too much 19
Measuring Resistance An ohmmeter must be hooked in parallel across the element you want to measure the resistance of Here we are measuring R 1 Ohmmeters apply a voltage and measure the current that flows. They typically won’t work if the resistor is powered (connected to a battery) 20
Concept Question: Bulbs & Batteries An ideal battery is hooked to a light bulb with wires. A second identical light bulb is connected in parallel to the first light bulb. After the second light bulb is connected, the current from the battery compared to when only one bulb was connected. 1. 2. 3. 4. Is Higher Is Lower Is The Same Don’t know P 18 - 21
Concept Question: Bulbs & Batteries An ideal battery is hooked to a light bulb with wires. A second identical light bulb is connected in series with the first light bulb. After the second light bulb is connected, the current from the battery compared to when only one bulb was connected. 1. Is Higher 2. Is Lower 3. Is The Same P 18 - 22
Electrical Power is change in energy per unit time So power to move current through circuit elements: 23
Power - Battery Moving from the negative to positive terminal of a battery increases your potential. If current flows in that direction the battery supplies power I 24
Power – Resistor (Joule Heating) Moving across a resistor in the direction of current decreases your potential. Resistors always dissipate power 25
Concept Question: Power An ideal battery is hooked to a light bulb with wires. A second identical light bulb is connected in parallel to the first light bulb. After the second light bulb is connected, the power output from the battery (compared to when only one bulb was connected) 1. 2. 3. 4. 5. Is four times higher Is twice as high Is the same Is half as much Is ¼ as much P 18 - 26
Concept Question: Power An ideal battery is hooked to a light bulb with wires. A second identical light bulb is connected in series with the first light bulb. After the second light bulb is connected, the light (power) from the first bulb (compared to when only one bulb was connected) 1. 2. 3. 4. 5. Is four times higher Is twice as high Is the same Is half as much Is ¼ as much P 18 - 27
Kirchhoff’s Loop Rules 28
Current Conservation Sum of currents entering any junction in a circuit must equal sum of currents leaving that junction. 29
Concept Question: Measuring Current If R 1 > R 2, compare the currents measured by the three ammeters: 1. 2. 3. 4. 5. 6. 7. A 1 > A 2 > A 3 A 2 > A 1 > A 3 > A 1 > A 2 A 3 > A 2 > A 1 A 3 > A 1 = A 2 None of the above Not enough information is given. P 18 - 30
Sum of Potential Differences Around a Closed Path Sum of potential differences across all elements around any closed circuit loop must be zero. 31
Sum of Potential Differences Around a Closed Path Sum of potential differences across all elements around any closed circuit loop must be zero. 32
Demonstration: Five Different Types of Resistance F 13 http: //tsgphysics. mit. edu/front/? page=demo. php&letnum=F 13&show=0 33
Steps of Solving Circuit Problem 1. 2. 3. 4. 5. Straighten out circuit (make squares) Simplify resistors in series/parallel Assign current loops (arbitrary) Write loop equations (1 per loop) Solve 34
Worked Example: Circuit What is current through each branch of the circuit shown in the figure below? 35
Worked Example: Simple Circuit Current conservation at a: Lower Loop: Start at a and circulate clockwise. Then Upper Loop: Start at a and circulate clockwise. Then Solve for I 2: and 36
Group Problem: Four Resistors Four resistors are connected to a battery as shown in the figure. The current in the battery is I, the battery emf is ε, and the resistor values are R 1 = R, R 2 = 2 R, R 3 = 4 R, R 4 = 3 R. Determine the current in each resistor in terms of I. 37
Demonstration: Wheatstone Bridge F 14 http: //tsgphysics. mit. edu/front/? page=demo. php&letnum=F 14&show=0 38
Group Problem: Wheatstone Bridge A circuit consisting of two resistors with R 1=6. 0 ohms and R 2=1. 5 ohms, a variable resistor, with resistance Rvar, a resistor of unknown value Ru, and 9. 0 volt battery, are connected as shown in the figure. When Rvar is adjusted to 12 ohms, there is zero current through the ammeter. What is the unknown resistance Ru? 39
- Faraday's law
- 18+15
- Faradays law
- Faradays alw
- Basic chemistry tutorial
- Faradays induksjonslov
- Newton's first law and second law and third law
- Newton's first law of motion
- Boyles law
- Avogadro's law constant
- Faraday's law derivation
- Faraday's law of electromagnetic induction ppt
- Faraday's law of electromagnetic induction
- Raoult's law and dalton's law
- What is a civil law
- Programl
- Legal realism
- Stoicism natural law
- Law of segregation vs law of independent assortment
- 4-7 the law of sines and the law of cosines answers
- Natural law vs positive law
- Introduction of distillation
- Difference between civil law and criminal law
- Raoult's law and dalton's law
- Law of segregation meiosis
- Faraday's law vs lenz's law
- Ethanol azeotrope
- Gustafson's law calculator
- Difference between statute and common law
- Common law australia
- Positive law vs natural law
- Lenz law
- Natural law vs positive law
- Private law vs public law
- Lesson 8-5 practice b law of sines and law of cosines
- Raoult's law for non volatile solute
- Newton's second law
- Gauss law and ampere's law
- Law of segregation vs law of independent assortment
- 8-6 the law of sines and law of cosines