2. From the circuit given below, solve for a. The value of resistor Z b. The total Resistance c. The current in every resistor D1, D2 and D3 240 V D1< D2 Z5A D3
Q: The force F = [0i + 10j - 15k] kN is resolved into components at point A. According to the right…
A: The k component of the force F is -15 kN.
Q: I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. You put a…
A:
Q: 5.) The vector potential A, of a dipole movement mis given by ма À (r) = 471 (mx r3 Show that the B…
A:
Q: Air in a balloon does 37 J of work while absorbing 88 J of heat. What is its change in internal…
A:
Q: A crate of mass 44.0 kg is being transported on the flatbed of a pickup truck. The coefficient of…
A: Given Mass of the crate is m=44.0 kg Coefficient of static friction is μs=0.330 Coefficient of…
Q: can the response be written out to make it more clear
A:
Q: A disk was thrown at an angle of 35deg to the horizontal. With what initial speed should the disk…
A:
Q: Problem 2: Let A = î-2ĵ and B = 2î + ĵ. . Compute A (A + B). Problem 3: Using the dot product,…
A:
Q: A force F= 40 + 103 N acts at point P, located at (Px, Py) = (-0.08, 0.1) m. Q FY 8 Calculate the…
A: Given Data: Force acting at point P, F→=40i^+10j^. Coordinates of point P Px,Py=(-0.08,0.1) m…
Q: An eagle carries a fish with its talon flying 15 m/s at an angle 25 degrees. At some point, this…
A: At the point of leaving the velocity components of the fish are: vx0=15cos25°=13.595…
Q: What are the parts of this traveling wave? y(x,t) (9.00 m) sin( (67 m¯¹)x+ (4π rad/s)t - n/8) 3.…
A: Given:- The equation of wave is given as y(x,t) = 9.00msin6πm-1x+4π rad/sect-π8) Find:- 3. The…
Q: Three vectors a, b, and 7, each have a magnitude of 41.0 m and lie in an xy plane. Their directions…
A:
Q: A cannonball is shot at an angle 70 degrees above the horizontal, as shown. The cannon stands 25 m…
A:
Q: Can you label which one is A,B,C and D thank you
A: Here the electrostatic force due to charged wire on N protons is equal to the the centripital force…
Q: A football is kicked from ground level with an initial velocity of 24.6 m/s at angle of 44.0° above…
A: Given data: A projectile motion Initial velocity (u) = 24.6 m/s Angle (θ) = 44.0° Required: The…
Q: .mheducation.com ces Saved Required information Starting from rest, a cheetah accelerates at a…
A:
Q: A baseball reaches Peter with a velocity of 41.6 m/s at -5.00 degrees from the horizontal. Peter…
A: Given Data: The velocity of baseball as it reaches peter u=41.6 ms. Angle make by baseball as it…
Q: What is the radius in inches of 100 MCM Cable? show your solution
A: 1 MCM = 1 kcmil = 0.5067 square milimeters So , 1 MCM = 0.5067 square milimeters 1 square…
Q: A projectile is launched from point A with the initial conditions shown in the figure. Determine the…
A:
Q: In the table below for E106, which of the following is the amount of heat lost by the metal specimen…
A: The amount of heat lost or gained by any substance is given by the expression Q=mC∆Tm is the mass of…
Q: 2. A car with a mass of 1500 kg is driving at 20 m/s along a straight line higway. How much friction…
A:
Q: Consider an object has a mass of 43.4 kg. You separate the protons and electrons of the object into…
A: Given that, the mass of an object is M=43.4kg The initial separation between the proton and electron…
Q: and a 500 resistor? Both anode leads are connected to the positive part of the supply. b. 0.3 V d. 5…
A:
Q: A golfer is attempting to reach the elevated green by hitting his ball under a low-hanging branch in…
A:
Q: At t = 0 a particle at the origin has a velocity of 15.1 m/s at 36° above the horizontal x axis. At…
A:
Q: A car is traveling at 15 m/s on a horizontal road. The brakes are applied and the car skids to a…
A: Given value--- A car is traveling at 15 m/s on a horizontal road. The brakes are applied and the…
Q: Rx = 59 & Ry = 64. Determine the magnitude and angle of R. Direction of R == ° (counterclockwise…
A: Given: The horizontal component of R→: Rx = 59. The vertical component of R→: Ry = 64. To…
Q: A jogger travels a route that has two parts. The first is a displacement A of 2.30 km due south, and…
A: Given that, vector A = 2.30 km , vector B = ? A +B = 4.15 km A-B = 4.15 km
Q: A football player runs for a distance di = 7.29 m in 1.4 s, at an angle of 0= 56 degrees to the…
A: Given:- A football player runs for a distance d1= 7.29 m in t1= 1.4 sec at an angle θ=56° to the…
Q: . A football player initially at rest accelerates uniformly as she runs down the field, travelling…
A: Given:- Initial velocity = vi = 0 m/s Distance travelled = x = 17m (east) Total displacement= 17 m…
Q: A traveler pulls on a 25 kg suitcase strap at an angle 36° above the horizontal. If the suitcase…
A: Given data: Mass (m) = 25 kg Angle (θ) = 36° , above the horizontal Initial velocity (u) = 0 m/s…
Q: In the figure below, m = 1 kg and the coefficient of kinetic friction is μ = 0.1. Determine the…
A: According to the Newton's second law of motion, the net force acting on an object is the product…
Q: A magnifying glass of focal length 8.0 cm is held 6.9 cmfróm a page of fine print. (a) Where is the…
A:
Q: 10. Three point-like charges are placed at the following points on the x-y system coordinates (q₁ is…
A: According to question we need to find resultant electric field at point O.
Q: x Incorrect A golfer is attempting to reach the elevated green by hitting his ball under a…
A:
Q: Car A is traveling at a location where the speed limit is 100 km/h. The police officer in car P…
A:
Q: 1.34 A motorist is traveling at 54 km/h when she observes that a traffic light 240 m ahead of her…
A:
Q: A car travels in the +x-direction on a straight and level road. For the first 4.05 s of its motion,…
A:
Q: A sprinter explodes out of the starting block with an acceleration of +2.32m/s^2, which she sustains…
A: Given At t = 0 velocity = u = 0 Acceleration in between 0 sec to 1.04s = +2.32 m/s2 Acceleration for…
Q: Implementing Gauss's law on a cylinder. You're going to find the electric field at a point P due to…
A:
Q: 6. A mass is dropped from a height h above the ground, and freely falls under the influence of…
A: when a body or item descends toward the earth because of the earth's gravitational pull and without…
Q: What are the parts of this traveling wave? y(x,t) = (9.00 m) sin( (6л m¯¹)x + (4ñ rad/s)t - n/8) 5.…
A:
Q: Suppose that 3 J of work is needed to compress a spring from its natural length of 20 cm to a length…
A:
Q: Find the horizontal distance from the gun to the point where the projectile strikes the ground.…
A:
Q: If you heat a gas that runs 600 A of current across a 15 V potential difference, how long in minutes…
A: Current = 600 A. Voltage applied = 15 Volts. Power of heating source =( V×I) = ( 15×600) =…
Q: The rectangular coordinates of a particle which moves with curvilinear motion are given by x =…
A:
Q: Suppose a chinook salmon needs to jump a waterfall that is 1.37 m high. (a) If the fish starts from…
A: Height of waterfall H=1.37 m The horizontal distance covered by the fish is sx=1.09 m The velocity…
Q: A boat increases its speed from 5.0 m/s to 7.5 m/s over a distance of 50.0 m. What is the boat’s…
A: Given value--- initial speed = 5 m/s. final speed = 7.5 m/s. distance = 50 m. We have to find---…
Q: I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now you…
A:
Q: A E .B X Choose true or false for each statement below about the uniform electric field shown above.…
A: 1. The electrostatic force on a charge is the same at points A and B True since the electrostatic…
Step by step
Solved in 2 steps
- A 500- resistor, an uncharged 1.50-F capacitor and a 6.16-V emf are connected in series, (a) What is the initial current? (b) What is the RC time constant? (c) What is the current after one time constant? (d) What is the voltage on the capacitor after one time constant?Find the following: a. Equivalent resistance of the circuit b. Total Current c. Voltage on the 250-2 resistor d. Voltage on the 200-2 resistor e. Current thru the 250-2 resistor. 100 Ω R R2 3250 2 24 V = 350 Ω R, R43 200 2 Activate Windows Go to Settings to activate WinM 1 Ω 11 V 3 W Ω 16 V a. Write Kirchhoff's junction rule for all junctions in the circuit. b. Write Kirchhoff's loop rule for all the loops in the circuit. c. Solve the circuit by finding the values of all the currents. 2 Ω mi M In this assignment you will be following the problem solving strategy for Kirchhoff Rules. 1. Reproduce, as neatly as possible, on paper, the circuit shown above. Do not make the circuit too small as you will have to add things to it later. 2. Label all relevant points in this circuit. For your benefit these points are marked with dots in the Figure above and they include: circuits junctions (i.e. places where 3/more wires connect), wire "corners" (i.e. places where a single wire is bent), and locations between two components on a single straight wire. These will help identify loops as well as making it easier to keep track of potential differences. Use lower case letters (a, b, c, ...) for this task. 3. For each junction draw and label the currents coming in…
- A series RC circuit, which is made from a battery, a switch, a resistor, and a 3.45- µF capacitor, has a time constant of 11.0 ms. If an additional 12.0- µF is added in series to the 3.45- µF capacitor, what is the resulting time constant? O a. 14.2 ms b. 38.3 ms c. 1.19 ms d. 8.54 ms O e. This cannot be found without the value of the resistance being given.In the circuit below, what is the current traveling across resistor R3? V = 24 volts, R₁ = 2.0, R₂ = 3.0 №, R3 = 6.0 ≤, and R4 = 4.0 2. R₂ V + [ a. 0.50 A O b. 1.5 A O c. 2.0 A d. 1.0 A e. 2.5 A R₁ R4 R₂R R2 R3 In the above circuit, R1 = R2 = R3 = R. The equivalent resistance of the circuit is 2R/3. O 3R. 3R/2. O R. O R/3.
- 2. An RC circuit is pictured. a. Find the current at time t-o. b. Find the current at time t-0.10 s c. Find the charge on the capacitor after two time constants have passed. d. How long will it take the capacitor to reach 75.0% of its final charge? C 42 HF R 5.3 ks (initially uncharged) Switch (closed at t-o)17. The following circuit carries a current of 200.0 mA. V₁ = 6.2 V and source - 15 V. What is the resistance of R₂? R, V₁ a. b. 53 c. 44Q d. 75Q 31 Q 18. Four resistors are placed in series in a circuit. Their resistances are R₁ - 10.1, R2- 19.80, R3-50.30. R4 = 25.4 22. What is the total resistance of the circuit? a. 95.50 b. 108 2 c. 80.2 d. 106 19. For the following circuit R₁ - 75, R₂ - 1252, R3-105, R4 - 150 C, and V₁-15 V. What is V source R₁ V₁ R₂ Vource a. 4.0 x 10 V b. 3.5 x 10 V R₂ c. 5.5 x 10 V d. 4.5 x 10 V R₂ R₁Refer to the given circuit. R2 = 5 N R1 = 6 N R3 = 4 2 R4 = 4 N R5 = 8 N %3D DURACELL VT = 10 V How much voltage is present across resistor #1 (R1)? Select one: a. 10 volts O b. 2.71 volts C. 7.32 volts d. 3.33 volts
- a. What is the current in each resistor? I1___ I2____ I3____ I4_____ b. What is the voltage across each resistor ? c. What power does the battery deliver to the circuit? pbattery____ d. What is the current in each resistor when the switchh is open? I1_____ I2_____ I3______ I4_______ e. What is the voltage across each resistor when the switch is open? V1____ V2_____ V3_____ V4_______ f. Calculate the power delivered by the battery? Explain why the power delivered by the battery increases or decreases when the switch was opened?4&cmid%3D9729&page=D11 juò 12 For the following circuit in the figure below, find the power ( in units of Watt) delivered to the 2R-resistor when ɛ = 24.1 V and R = 3.0 0? put of question 2R Select one: O A. 145.2 O B. 24.2 OC. 72.6 O D. 18.2 O E. 48.4The resistance in an RC circuit is comprised of a 1.5-MQ resistor in parallel with a 2.0-MQ resistor. What is the time constant for this circuit if the capacitance is 2.5 µF? Select one: a.5.0 μs b.4000 s c.2.0 s d.7.0 ms e. 120 s