5) For series circuits, state the relationship between the voltage across the whole circuit and the...
1. For parallel circuits, state the relationship between the voltage across the WHOLE circuit and the voltage across an INDIVIDUAL light bulb as more light bulbs are added. 2. For series circuits, state the relationship between the voltage across the WHOLE circuit and the voltage across an INDIVIDUAL light bulb as more light bulbs are added.
5) For parallel circuits, state the relationship between the voltage across the whole circuit and the voltage across an individual light bulb as more light bulbs are added.
1. Does the resistance of the WHOLE circuit increase, decrease, or stay the same when additional light bulbs are added in series? 2. Does the voltage across each individual light bulb increase, decrease, or stay the same when additional light bulbs are added in series? 3. Does the resistance of the whole circuit increase, decrease, or stay the same when additional light bulbs are added in parallel? 4. Does the voltage across each individual light bulb increase, decrease, or stay...
1. Does the resistance of the whole circuit increase, decrease, or stay the same when additional light bulbs are added in parallel? 2. Does the voltage across each individual light bulb increase, decrease, or stay the same when additional light bulbs are added in parallel? 3. Are light bulbs brighter when they're connected in series or in parallel? 4. Consider a whole circuit. When the power supply is set to 12V, does the power supply provide more current to the...
ellesClrcults Consider the series circuits: 1, 10, 13, and 14 and answer the following questions. 1) Does the voltage across the whole circuit change as additional light bulbs are if we addl added in series? yes rthe voltae decrose more balbs 2) Does the current through the whole circuit change as additional light bulbs are added in series? yes 43) Using Ohm's Law, V-IR, explain what must be happening to the resistance of the whole circuit as additional light bulbs...
Data Analysis: Parallel Circuits Consider the parallel circuits: 1, 5, 8, and 9 and answer the following questions. 1) Does the voltage across the whole circuit change as additional light bulbs are added in parallel? Yes, the vaitee beo s smaller i we add more bulbs -2) Does the current through the whole circuit change as additional light bulbs are added in parallel? Yes th current of the whole Circuib changes -3) Using Ohm's Law, V I explain what must...
3. Does the resistance of the whole circuit increase, decrease, or stay the same when additional light bulbs are added in parallel? 4. Does the voltage across each individual light bulb increase, decrease, or stay the same when additional light bulbs are added in parallel?
16. In your own words, state the relationship between voltage and current in a circuit. 17. What could you do to a closed circuit consisting of 2 batteries, 2 light bulbs, and a switch to increase the current? Explain your answer. 18. What could you do to a closed circuit consisting of 2 batteries, 2 light bulbs, and a switch to decrease the current? Explain your answer. 19. You have four 1.5 V batteries, a 1: bulb, a 2: bulb,...
Hi, can anyone answer and explain questions 2, 3, and 4 for me? Thank you! 2. same when additional light bulbs are added in series? Does the voltage across each individual light bulb increase, decrease, or stay the Th volface decve ases acvoss individual bulbs uhen more are addea, Tha voltage of m entive Civcuit .is divided amangst mem 3.. Does the resistance of the whole circuit increase, decrease, or stay the same when additional light bulbs are added in...
DC Circuits: Application of Kirchhoff's laws In the following circuit the voltage supplied to the circuit by the batteries is 12.0 V. Find the currents in the circuit if the resistances of the bulbs are the same and 10.0 Ohm. For that purpose do the following. Apply Kirchhoff's junction law and find out relation between different currents. Apply Kirchhoff's loop law for the circuit involving the bulb A, the bulb B and the battery and get the first equation. Apply...