Determine the relaxation time for silver, given that ?=6.17× 107 S/m if charge of density ?o...

Calculate the drift velocity (in m/s) of electrons in a 15 gauge silver wire (which has...

Calculate the drift velocity (in m/s) of electrons in a 15 gauge silver wire (which has a diameter of 1.449 mm) carrying a 23.6 A current, given that there is one free electron per silver atom. The density of silver is 1.05 ✕ 104 kg/m3. (Indicate the direction with the sign of your answer.) 1.42 Incorrect: Your answer is incorrect. Correct answer: -0.00153 m/s

Calculate the drift velocity (in m/s) of electrons in a 14 gauge silver wire (which has...

Calculate the drift velocity (in m/s) of electrons in a 14 gauge silver wire (which has a diameter of 1.627 mm) carrying a 16.6 A current, given that there is one free electron per silver atom. The density of silver is 1.05 ✕ 104 kg/m3. (Indicate the direction with the sign of your answer.)

1) A car is accelerating in a straight highway from 1.1 m/s to 7.2 m/s after...

1) A car is accelerating in a straight highway from 1.1 m/s to 7.2 m/s after 3.3 seconds. What is the acceleration of the car? 2) What is the volume of a 9-pound wooden block if the density of wood is 0.8 gram per cubic centimeters? Answer in cubic centimeters (cm3). 3)The position of a body (in meters) is given by the function X = 18.2 + 6.9 t + 0.2 t3 where time t is in seconds. What is...

For the first order decomposition of H2O2(aq), given k = 3.60 x 10-3 s-1 and the...

For the first order decomposition of H2O2(aq), given k = 3.60 x 10-3 s-1 and the initial concentration of [H2O2]o is 0.882 M, determine : (a) the time at which [H2O2]t decreases to 0.600 M; (b) what will be the concentration of [H2O2]t after 225 s and (c) find the half-life of the reaction.

Two identical conducting small spheres are placed with their centers 0.250 m apart. One is given...

Two identical conducting small spheres are placed with their centers 0.250 m apart. One is given a charge of 12.0 nC, and the other is given a charge of -16.0 nC. (a) Find the electric force exerted on one sphere by the other. Magnitude NDirection (b) The spheres are connected by a conducting wire. Find the electric force between the two after equilibrium has occurred. Magnitude NDirection

Continuous Time Markov Chains 1. Find the limiting probabilities for the M/M/s system 2. Determine the...

Continuous Time Markov Chains 1. Find the limiting probabilities for the M/M/s system 2. Determine the condition needed for these to exist.

Two small identical conducting spheres are placed with their centers 0.65 m apart. One is given...

Two small identical conducting spheres are placed with their centers 0.65 m apart. One is given a charge of 12 ? 10?9 C, the other a charge of ?17 ? 10?9 C. (a) Find the electrostatic force exerted on one sphere by the other. magnitude N direction ---Select--- attractive repulsive (b) The spheres are connected by a conducting wire. Find the electrostatic force between the two after equilibrium is reached, where both spheres have the same charge. magnitude N direction...

Labor Relations- Chapter 5- G o v e r n m e n t s ,...

Labor Relations- Chapter 5- G o v e r n m e n t s , L a b o u r R e l a t i o n s B o a r d s , a n d O t h e r P a r t i e s Case Study- Quality Inn & Suites Brantford v. UFCW Local 175 In January 2012 the Ontario Labour Relations Board was asked to consider an application for the...

Table 1 shows the temperature-time data were recorded for the reaction between 50.0 mL of 1.18...

Table 1 shows the temperature-time data were recorded for the reaction between 50.0 mL of 1.18 M HA (a weak acid) and 50.0 mL of 0.98 M NH4OH, ammonium hydroxide (a weak base, also known as aqueous ammonia). The solutions were mixed after 60 s of approximately constant temperature readings of 24.20 oC. This is the initial temperature. Table 1: temperature-time Data Time (s) Temperature (oC) Time (s) Temperature (oC) 0 24.25 90 31.22 15 24.22 105 31.12 30 24.20...

a) A 1 meter long guitar string of linear mass density 2g/m3 is put under tension...

a) A 1 meter long guitar string of linear mass density 2g/m3 is put under tension until it resonates with a fundamental frequency of 440 Hz. Determine the tension that produces this fundamental frequency. Also determine the other of the first four harmonic frequencies and draw diagrams illustrating what each of these oscillations looks like on the string. b) This string will produce sound waves in the air, determine the wavelength of the sound waves. c) Suppose you had two...