Vhat is the effective capacitance between points "a" and "b" in the circuit diagram below? Each capacitor has capacitance of 6 µF. a b ) 1 µF. D 3 µF. O 4 µF. O 6 µF. 9 µF.
Q: A standing wave on a string is described by the wave function y(x,t) = (5 mm) sin(4Ttx)cos(30Tt).…
A: given standing wave equation = y = (5mm) sin(4π x) cos (30π t)
Q: Question on Physics - Unit - Work and Energy Which of the following statement correctly describes…
A: Dear student The gravitational potential energy is expressed by: U = mgh Where h = height from…
Q: Find the magnetic field at a generalized point R (do not assume on the z axis, there is not assumed…
A:
Q: An object is thrown horizontally from the top of a 5-m building and lands 97 m from the base of the…
A: Please note : As per answering guidelines I can answer the first question only. Since, this is not a…
Q: A standing wave on a 2-m stretched string is described by: y(x,t) = 0.1 sin(4Ttx) cos(50Tt), where x…
A: length of string (L) = 2 m The equation of the standing wave : y(x,t) = 0.1Sin(4πx)Cos(50πt) where x…
Q: (11.15) A 0.25-kg mass at the end of a spring oscillates 2.2 times per second with an amplitude of…
A:
Q: An RLC circuit has R= 460 ohms, the L= 0.340 henrys, Part A and C = 2.00x102 microfarads. What…
A:
Q: A positive gas ion with mass 1.5×10−27kg1.5×10−27kg is traveling with speed 200m/s200m/s in the…
A:
Q: Ray 1 of light in medium a (see (Figure 1)) strikes the surface at 51.0∘ with respect to the normal.…
A:
Q: If a standing wave on a string is produced by the superposition of the following two waves: y1 = A…
A:
Q: If an immersion heater heats 300 g of water for 2 minutes and the temperature rises by 30 °C, find…
A: Mass of water is m=300 g=0.3 kg Increase in temperature of the water is Δθ=30oC Specific heat of…
Q: 5. A bolt with a 1.25 cm radius needs to be tightened to a torque of 75 m N. A wrench that has a…
A:
Q: A standing wave on a 2-m stretched string is described by: y(x,t) = 0.1 sin(2Ttx) cos(50t), where x…
A: Shortest distance between node and antinode is (1/4) of wavelength.
Q: (11.13) A 1.65-kg mass stretches a vertical spring 0.215 m. If the spring is stretched an additional…
A: Given: The mass of the object is 1.65 kg. The stretching in the spring due to the weight of the…
Q: In 8.0 seconds, the braking of an automobile reduces its speed from 58 miles per hour to 30 miles…
A: Given:- Initial speed of the vehicle is vi=80 mi/h=80 mi1 h×1609 m1 mi×1 h3600 s=35.8 m/s Final…
Q: In 3.0 seconds, the braking of an automobile reduces its speed from 59 miles per hour to 20 miles…
A:
Q: If a standing wave on a string is produced by the superposition of the following two waves: y1 = A…
A: acceleration a=∂2∂t2y1+y2=-ω2Asinkx-ωt+sinkx+ωt=-2ω2Asinkxcosωt
Q: A skier is traveling at 13 m/s while being 180 m high on a mountain. The skier goe over a jump at a…
A:
Q: If a bus travelling at 24 m/s is subjected to a steady deceleration of 2 m/s?, how long will it take…
A: Given: Intial Speed (u) = 24 m/s Acceleration (a) = - 2 m/s2 Final speed (V) = 0 m/s ....(rest)…
Q: Problem: You are calculating the electric field of charge distributed in a ring as shown in the…
A: Electric field on the axis of a ring ( radius,R ) at a distance x is given by kQxR2+x23/2.
Q: q11 A wire that is 1.50 m long at 20 deg Celsius is found to increase in length by 1.90 cm when…
A: Given: The intial length of the wire is 1.5 m. The increment in length of the wire is 1.9 cm. The…
Q: e) 644 nm 20. The distance between two far away stars is 6.80 light years. A spacecraft travels…
A: Given Distance between two Stars d = 6.80 light years Since, Light year is defined as distance…
Q: Calculate the voltage Vi and the current Ii for the following two cases where the resistance is…
A:
Q: The pace at which a caterpillar climbing a leaf slows from 0.85 cm/s to 0.42cm/s is -0.02cm/s5. How…
A:
Q: When a string of length L has both ends fixed, the fundamental mode for standing waves in the string…
A:
Q: How can you oppose any variation in the current flowing through the circuit? a use a capacitor b…
A:
Q: The following figure will be the same for the next few questions. It shows a graph of displacement…
A:
Q: d) 50.6 W/m? e) 38.0 W/m 12 At a particular moment in time and space, we measure an electromagnetic…
A:
Q: Question 3 ( quantity is measured by two different methods and the values and standard deviations…
A: The value is the average of two values.
Q: From the graph, find the experimental value of the horizontal component of the Earth's Magnetic…
A: The relationship between horizontal, vertical component of magnetic field is BV = BH tanθ
Q: Five simple pendulums are shown in the drawings. The length of the pendulums are drawn to scale, and…
A: Given:Five pendulumsDifferent Lengths Different mass (m or 2m)To Find:Which pendulum has the largest…
Q: A automobile climbed up a hill at a consistent speed of 50 m/s before descending at a speed of 70…
A:
Q: A automobile climbed up a hill at a consistent speed of 50 m/s before descending at a speed of…
A:
Q: If a standing wave on a string is produced by the superposition of the following two waves: y1= A…
A: Y = Y1 + Y2 Y = 2ACoswt Sinkx
Q: A 350 W element is used to boil 300 g of water in a cup. The initial temperature of the water is 20…
A: Write the given values with the suitable variables. P=350 Wm=300 g=0.3 kgT1=20 °CT2=100 °C Here, P…
Q: The bike is moving at a speed of 4 m/s. The backpack is solid cuboid and its position is on bike…
A: a). Moment of inertia is 4.88 kg/m2 b). kinetic energy and the work done is 53.34 J c). Power is 14…
Q: 17. At Position E A. TOTE = 100% GPE +0 KE B. TOT E-0 GPE + 100 % KE C. TOT E-50% GPE + 50% KE D.…
A: In this question we have to answer the questions related to the motion of the projectile. Please…
Q: Light travels through a material at a speed of 2.52x108 m/s. What is the index of refraction for the…
A:
Q: A 700-g rock is attached to a half-meter (massless) string and is spun on the other end on vertical…
A:
Q: Over a distance of 260 meters, an automobile going initially at +5.0 m/s accelerates evenly at +0.20…
A:
Q: In 1.0 seconds, the braking of an automobile reduces its speed from 59 miles per hour to 40 miles…
A:
Q: Suppose you walk first Am straight due south, then Bm straight due north, then C m straight due…
A:
Q: A 3.2-tonne vehicle accelerates to 140 miles per hour in 50 seconds. Calculate the force exerted by…
A:
Q: ladder
A:
Q: How would the ground state energy for a doubly ionized lithium ion, Li**, be expected to compare…
A: The ground state energy of hydrogen is -13.6 eV. For a Li++ atom, the energy level of n=3 has the…
Q: a candle is placed 15b in front of a concave spherical mirror with it's radius being 5b. Is the…
A: Lens formula 1v-1u=1f In optics, the relationship between the distance of an image (v), the distance…
Q: A machine gun fires 9 bullets /s, each of mass 8 g the speed to each bullets is 12 cm/-1 then force…
A: Given data : Speed of each bullet = v Mass of…
Q: A standing wave with wavelength of 2 m, speed of 20 m/s and amplitude of 2 mm is generated on a taut…
A:
Q: An object is moving in a straight line. One half of total displacement the object moves with…
A:
Q: A propagating wave on a taut string of linear mass density µ = 0.05 kg/m is %3D represented by the…
A: Power associated with travelling wave in a string P= (1/2) uvW^2 A^2 A = amplitude W= angular speed…
Step by step
Solved in 2 steps
- An ECG monitor must have an KC time constant lessthan 1.00102s to be able to measure variations involtage oversmall time intervals, (a) If the resistance of the circuit (duemostly to that of the patient's chest) is 1.00kTwhat is the maximum capacitance of the circuit?(b) Would It be difficult in practice to limit the capacitance to less than the value found in (a)?(a) Determine the equilibrium charge on the capacitor in the circuit of Figure P27.46 as a function of R. (b) Evaluate the charge when R = 10.0 . (c) Can the charge on the capacitor be zero? If so, for what value of R? (d) What is the maximum possible magnitude of the charge on the capacitor? For what value of R is it achieved? (c) Is it experimentally meaningful to take R = ? Explain your answer. If so, what charge magnitude does it imply? Figure P27.46In the circuit in the figure, the capacitance of each C1 capacitor is 5.7 μF, and the capacitance of each C2 capacitor is 3.8 μF. Part A: Calculate the equivalent capacity of the circuit between points a and b.Express your answer using two meaningful numbers.(Ceq=...F) Part B: Calculate the loads on the three capacitors closest to points a and b for Vab = 500 V.Express your answer using two meaningful numbers.(Q1=...V) Part C : Q2 (Q2=....V) Part D : The potential difference between a and b is given as 500 V, calculate Vcd.Express your answer using two meaningful numbers.( Vcd=......V)
- Four capacitors are arranged in the circuit shown in the figure. The capacitors have the values C C3 = 50.5 µF, and C4 = 40.5 µF, and the power supply is at v V = 22.5 V. = 24.5 µF, C2 = 45.5 µF, What is the equivalent capacitance of the circuit? C, V equivalent capacitance: µF C, What is the charge on capacitor C2? charge on C2: x100 C What is the potential difference across capacitor C3?Four capacitors are arranged in the circuit shown in the figure. The capacitors have the values C 3 26.5 иF, С2 — 45.5 pF, C3 = 50.5 µF, and C4 40.5 µF, and the power supply is at %3D voltage V = 19.5 V. C, What is the equivalent capacitance of the circuit? V equivalent capacitance: 14.14 µF What is the charge on capacitor C2? 4.03 x10-4 charge on C2: C Incorrect What is the potential difference across capacitor C3? potential difference across C3: V Incorrect What is the potential energy stored in capacitor C4 ? potential energy stored in C4: J IncorrectConsider the following circuit: 15 μF 5 µF 10 µF 1. Find the equivalent capacitance of the circuit. 2. What is the charge stored by the 12 µF capacitor? 3. What is the voltage across the 5 µF capacitor? 4. What is the energy stored by the 15 µF capacitor? 20 μF 25 μ 8 µF 4 µF 12 µF IHH 40 V
- Refer to the given circuit. C1 = 5 µF %3D C3 = 8 µF C2 = 4 µF C, = 6 µF C5 = 4 µF DURACELL VT = 12 V Solve for the total capacitance of the circuit. Select one: O a. 5.28 micro Farads O b. 6.64 micro Farads O c. 8.42 micro Farads O d. 5.92 micro FaradsFour capacitors are arranged in the circuit shown in the figure. The capacitors have the values C1 = 26.5 µF, C2 = 45.5 µF, C3 = 50.5 µF, and C4 = 40.5 µF, and the power supply is at voltage V = 19.5 V. C, What is the equivalent capacitance of the circuit? V equivalent capacitance: 14.14 HF What is the charge on capacitor C2? charge on C2: 275.73 x10–6 C What is the potential difference across capacitor C3? 6.8 potential difference across C3: V Incorrect What is the potential energy stored in capacitor C4? 9.3 x106 potential energy stored in C4: J Incorrect 生Four capacitors are arranged in the circuit shown in the figure. The capacitors have the values,C1=22.5 μF,C2=45.5 μF, ,C3=50.5 μF, and ,C4=40.5 μF, and the power supply is at voltage V=25.5 V. What is the equivalent capacitance of the circuit? equivalent capacitance: What is the charge on capacitor ?2?C2? charge on C2: What is the potential difference across capacitor C3? What is the potential energy stored in capacitor C4?
- The question is . A) What is the time constant for the circuit shown in the figure below if the value of of e=12.0 V, R=22.8ohm, and C= 88.1mF. B Suppose the switch is closed and the capacitor starts to charge. How much of the charge will be accumulated on each plate of the capacitor after 3 s of charging.. Submit answer the value of the charge (in mC, with two decimal places).Figure 3 below show a circuit with combination of five capacitors. Determine the effective capacitance between terminal A and B. 2 µF 3 µF ... A 2 µF 3 µF 4 µF Figure 3 A 0.095µF 0.996µF 9.5μΓ D 9.96иFCompute for the total energy of the entire circuit. Select one: a. 128.42 micro Joules b. 352.12 micro Joules c. 273.56 micro Joules d. 478.08 micro Joules