Figure 10 12 w 2012 3.0 AT A 100 resistor is connected in parallel with a...
Two parallel rails with negligible resistance are 1.00E-1m apart and are connected by a 3.1022 resistor. The circuit also contains two metal rods having resistances of R1=8.0022 and R2=18.202 sliding along the rails (see figure). The rods are pulled away from the resistor at constant speeds V1=4.00m/s and v2=2.00m/s, respectively. A uniform magnetic field of magnitude 0.0100T is applied perpendicular to the plane of the rails. Determine the current in the 3.10ohm resistor. Submit Answer Tries 0/10 V1 E V2...
Two parallel rails with negligible resistance are 11.0 cm apart
and are connected by a resistor of resistance
R3 = 5.00 Ω.
The circuit also contains two metal rods having resistances
of
R1 = 13.5 Ω
and
R2 = 15.0 Ω
sliding along the rails (see figure). The rods are pulled away
from the resistor at constant speeds of
v1 = 4.00 m/s
and
v2 = 2.00 m/s,
respectively. A uniform magnetic field of magnitude
B = 0.0100 T
is...
Two parallel rails with negligible resistance are 1.00E-1m apart
and are connected by a 3.90Ω resistor. The circuit also contains
two metal rods having resistances of R1=10.70Ω and R2=14.50Ω
sliding along the rails (see figure). The rods are pulled away from
the resistor at constant speeds v1=4.00m/s and v2=2.00m/s,
respectively. A uniform magnetic field of magnitude 0.0100T is
applied perpendicular to the plane of the rails. Determine the
current in the 3.90ohm resistor.
B R E R R,
Two parallel lengths of wire are separated by 10 cm and connected at the left edge by a 160 resistor. A conducting bar rests on the wires, perpendicular to both, and is pulled to the right at 12 m/s. A magnetic field of 2.2 T points into the page through the coll, such that the magnetic field is perpendicular to the plane of the loop. a) What is the emf induced in the loop? b) What is the current in the loop?c)...
factor of tW 10. A loop of wire shown on the figure for problem 10 is placed in a uniform magnetic field directed into the page. The area of the loop decreases by a factor of three during a time interval of one second. 21) The magnetic flux through the loop a) increases by a factor b) increases by a of three c) decreases by a factor of three d) decreases by a f of nine factor of nine 22)...
Two parallel rails with negligible resistance are 10.0 cm apart and are connected by a resistor of resistance R3 5.00 12. The circuit also contains two metal rods having resistances of R1 = 10.0 12 and R2 15.0 2 sliding along the rails (see figure). The rods are pulled away from the resistor at constant speeds of V1 = 4.00 m/s and V2 = 2.00 m/s, respectively. A uniform magnetic field of magnitude B = 0.0100 T is applied perpendicular...
Three Resistors in Parallel Three resistors are connected in parallel as shown in figure (a). A potential difference of 12.0V is maintained between points a and b. Three resistors connected in parallel. The Another circuit with three resistors and a voltage across each resistor is 12.0 V. battery. Is it equivalent to the circuit in (a)? a Ž 3.00 6.00 9.00 3.00 6.00 09.00 (a) Calculate the equivalent resistance of the circuit. SOLUTION Conceptualize Figure (a) shows that we are...
A vertical bar and two parallel horizontal rails lie in the
plane of the page. The parallel rails run from left to right, with
one a distance ℓ above the other. The left ends of the rails are
connected by a vertical wire containing a resistor R. The
vertical bar lies across the rails to the right of the wire. Force
vector Fapp points from the bar toward
the right.In the figure below, a metal bar sitting on two parallel...
ANSWER ALL PLEASE
Question 20 2 pts In the Figure below, V1 = 14 V, V2 = 8 V, V3 = 10 V, R1 = 2.00, R2 = 4.0, and R3 = 2.00 Find the electric currents is, iz, and is. (Hint: use the junction a and the two loops). RI R 14 M4 Equations: Kirchoff's Junction (node) rule: 11 = 12 + iz Kirchoff's Loop rule (left loop): V1 - iRi - iz R2 + V2 = 0 Kirchoffs...
Two parallel conducting rails with negligible resistance are connected at one end by a resistor of resistance R, as shown in the figure. The rails are placed in a magnetic field Bext, which is perpendicular to the plane of the rails. This magnetic field is uniform and time independent. The distance between the rails is f. A conducting rod slides without friction on top of the two rails at constant velocity v . Three-dimensional view ext ind Top view Bext...