1. Which of the following statements best describe Ampere's Law? a. The time rate of change...
1. Which of the following statements best describe Ampere's Law? The time rate of change in the voltage is proportional to the current. The voltage drop across a capacitor is directly proportional to current. The voltage drops across a resistor directly proportional to the emf. d. a. b. c. The voltage drops across a resistor directly proportional to the current. 2. Which of the following statements best describe Faraday's Law of induction? a. The time rate of change in the...
3. a) Describe Ampere's Law for a long straight wire carrying a current, and Faraday's (5 marks) b) A circular loop of area 0.10m2, is perpendicular to a unifom magnetic field, B. The Law of induction, and Lenz's Rule for a loop of wire in a magnetic field. loop contains a resistor (i) What is the EMF across the resistor where the magnitude of the magnetic field varies with time according to B = 0.10-0.04t, with B in teslas and...
Question7 1 pts Which statement is correct regarding Faraday's Law? O An emf is induced around a closed loop if there is a electric flux through the loop changes. The magnitude of the emf is proportional to the rate the electric flux changes with time. An emf is induced around a closed lool if the magnetic flux through the loop changes with position. The magnitude of the emf is proportional to the rate the magnetic flux changes with position O...
What is Faraday's Law? o It defines the induced voltage across a coil when the magnetic field going through it changes. o It gives the direction of the induced current going through a coil when the magnetic field going through it changes. O The potential difference across a resistor is proportional to both the resistance and the current going through it O The sum of all the current going into a junction has to equal the sum of all the...
Question 1 Select the correct answer(s): When considering electromagnetic induction, Lenz's Law determines the magnitude of the emf induced across the ends of a coil of wire that is rotating in a magnetic field. The smaller the change in magnetic flux, the greater the induced emf. Faraday's Law can be used to calculate the magnitude of an induced emf. Electric current can be induced by a changing magnetic field. Submit Answer Tries 0/3
Learning Goal: To understand the terms in Faraday's law and to be able to identify the magnitude and direction of induced emf. Faraday's law states that induced emf is directly proportional to the time rate of change of magnetic flux. Mathematically, it can be written as E=???B?t, where E is the emf induced in a closed loop, and ??B?t is the rate of change of the magnetic flux through a surface bounded by the loop. For uniform magnetic fields the...
2.5 points For any flux change that takes place in a circuit, Faraday's law states that the magnitude of the emf induced in the circuit is proportional to which parameter? Save Answer 1. Voltage of the circuit the rate of change of flux O2 3 Current in the circuit 4. None of the above
All of the following are true regarding Lenz’s law except: a)This law provides a physical interpretation of the minus sign in Faraday’s law. b)According to this law, if the current in a solenoid is reduced then the induced EMF will act to further reduce the current. c)According to this law, an increase in magnetic field through a solenoid will result in an EMF producing a current that acts to decrease the field. d)According to this law, if a conducting bar...
TRUE/FALSE. Write 'T' if the statement is true and 'F' if the statement is false. 11) A changing magnetic field can produce an electric current. 12) An emf is induced in a wire by moving the wire near a magnet. 13) A constant magnetic field can be used to produce an electric current. 14) An electric generator is a device that converts electrical energy into mechanical energy. MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers...
Which of the following statements are equivalent to saying that the flux of the magnetic field through any closed surface is always zero? (select all that apply) there are no magnetic monopoles in nature magnetism obeys Faraday's Law magnetic field lines are always closed loops magnetic field lines can never cross the induced emf always opposes the change in the flux magnetic field lines are basically the same as electric field lines