Lars, of mass 82.4 kg, can do work for about 2.0 min at the rate of 1.0 hp (746 W). How long will it take him to climb three flights of stairs, a vertical height of 12.0 m?
> Would a ground fault interrupter work if the circuit used dc current instead of ac? Explain.
> A cylindrical steel bar is compressed by the application of forces of magnitude F at each end. What magnitude forces would be required to compress by the same amount (a) a steel bar of the same cross- sectional area but one half the length? (b) a steel
> A car drives around a curve with radius 410 m at a speed of 32 m/s. The road is not banked. The mass of the car is 1400 kg. (a) What is the frictional force on the car? (b) Does the frictional force necessarily have magnitude μsN? Explain.
> Why is a refracting telescope with a large angular magnification longer than one with a smaller magnification?
> An electron with a velocity of 10.0 m/s in the positive y-direction enters a region where there is a uniform electric field of 200 N/C in the positive x-direction. What are the x- and y-components of the electron’s displacement 2.40 &Ac
> In the crossover network of Problem 63, the inductance L is 1.20 mH. The capacitor is variable; its capacitance can be adjusted to set the crossover point according to the frequency response of the woofer and tweeter. What should the capacitance be set t
> Suppose a uniform electric field of magnitude 100.0 N/C exists in a region of space. How far apart are a pair of equipotential surfaces whose potentials differ by 1.0 V?
> On a graph of x versus time, what quantity does the slope of the graph represent?
> A cosmic-ray proton entering the atmosphere from space has a kinetic energy of 2.0 × 1020 eV. (a) What is its kinetic energy in joules? (b) If all of the kinetic energy of the proton could be harnessed to lift an object of mass 1.0 kg near Earth's surfa
> What is the angular acceleration of the dipole at θ = 135°?
> A whimsical statement of the laws of thermodynamics—probably not one favored by gamblers—goes like this: I. You can never win; you can only lose or break even. II. You can only break even at absolute zero. III. You can never get to absolute zero. What do
> A seismic wave is described by the equation The wave travels through a uniform medium along the x-axis. (a) Is this wave moving right (+x-direction) or left (−x-direction)? (b) How far from their equilibrium positions do the particles
> The first nuclear reaction ever observed (in 1919 by Ernest Rutherford) was / . (a) Identify the reaction product “(?).” (b) For this reaction to take place, the alpha particle must come in contact with the nitrogen nucleus. Calculate the distance d bet
> An electric appliance is rated 120 V, 5 A, 500 W. The first two are rms values; the third is the average power consumption. Why is the power not 600 W (= 120 V × 5 A)?
> A beam of light in air enters a glass block at an angle of 30° to the glass surface, as shown. The glass has an index of refraction of 1.35. (a) Find the angle labeled θ1. (b) Calculate the critical angle between the glass and ai
> An electric baseboard heater can convert 100% of the electric energy used into heat that flows into the house. Since a gas furnace might be located in a basement and sends exhaust gases up the chimney, the heat flow into the living space is less than 100
> (a) Imagine drawing a circle on the surface of a metal plate. When the temperature increases, what happens to the size of the circle? (b) Instead of drawing a circle, suppose you cut out the circle and then put it back inside the hole in the plate. What
> In a hydraulic lift, the radii of the pistons are 2.50 cm and 10.0 cm. A car weighing W = 10.0 kN is to be lifted by the force of the large piston. (a) What force Fa must be applied to the small piston? (b) When the small piston is pushed in by 10.0 cm
> A photon of wavelength 0.148 00 nm, traveling due east, is scattered by an electron initially at rest. The wavelength of the scattered photon is 0.149 00 nm, and it moves at an angle θ north of east. (a) Find θ. (b) What is the south component of the el
> Explain why the molar specific heat at constant volume is not the same as the molar specific heat at constant pressure for gases. Why is the distinction between constant volume and constant pressure usually insignificant for the specific heats of liquids
> Verify that / has dimensions of energy.
> The wiring circuit for a typical room is shown schematically. (a) Of the six locations for a circuit breaker indicated by A, B, C, D, E, and F, which one would best protect the wiring against a short circuit in any one of the three appliances? Explain.
> A train of mass 55 200 kg is traveling along a straight, level track at 26.8 m/s. Suddenly the engineer sees a truck stalled on the tracks 184 m ahead. If the maximum possible braking force has magnitude 84.0 kN, can the train be stopped in time?
> You are walking to class with a backpack full of books. As you walk at constant speed on flat ground, does the force exerted on the backpack by your back and shoulders do any work? If so, is it positive or negative? Answer the same questions in two other
> The resistance of a conductor is 19.8 Ω at 15.0°C and 25.0 Ω at 85.0°C. What is the temperature coefficient of resistance of the material?
> Massimo, a machinist, is cutting threads for a bolt on a lathe. He wants the bolt to have 18 threads per inch. If the cutting tool moves parallel to the axis of the would-be bolt at a linear velocity of 0.080 in./s, what must the rotational speed of the
> After a day at the beach, a child brings home a bucket containing some saltwater. Eventually the water evaporates, leaving behind a few salt crystals. The molecular order of the salt crystals is greater than the order of the dissolved salt sloshing aroun
> A new dormitory is being built at a college in North Carolina. To save costs, it is proposed to not include air conditioning ducts and vents. A member of the board overseeing the construction says that stand- alone air conditioning units can be supplied
> In the railroad freight yard, an empty freight car of mass m rolls along a straight level track at 1.0 m/s and collides with an initially stationary, fully loaded boxcar of mass 4.0m. The two cars couple together on collision. (a) What is the speed of t
> What is the ground-state electron configuration of a K+ ion?
> Two point charges (+10.0 nC and −10.0 nC) are located 8.00 cm apart. (a) What is the change in electric potential energy when a third point charge of −4.2 nC is moved from point c to point b? (b) How much work would
> Two point charges are located on a coordinate system as follows: Q1 = −4.5 µC at x = 1.00 cm and y = 1.00 cm and Q2 = 6.0 µC at x = 3.00 cm and y = 1.00 cm. (a) What is the electric field at point P located at
> A starship takes 3.0 days to travel between two distant space stations according to its own clocks. Instruments on one of the space stations indicate that the trip took 4.0 days. How fast did the starship travel relative to that space station?
> Chronic exposure to loud noises can be damaging to one's hearing. This can be a problem in occupations in which heavy machinery is used. If a machine produces sound with an intensity level of 100.0 dB, what would its intensity level have to be to reduce
> Three point charges are located at the corners of a right triangle as shown in the figure. How much work does it take for an external force to move the charges apart until they are very far away from one another?
> To understand Rayleigh's criterion as applied to the pupil of the eye, notice that rays do not pass straight through the center of the lens system (cornea + lens) of the eye except at normal incidence because the indices of refraction on the two sides of
> A particle traveling at a speed of 6.50 × 106 m/s has the uncertainty in its position given by its de Broglie wavelength. What is the minimum uncertainty in the speed of the particle?
> An external magnetic field is parallel to the central axis of a 50 turn coil of radius 5.0 cm. During an interval of 160 ms, the field changes from 0.20 T in one direction to 0.30 T in the opposite direction. The resistance of the coil is 82 Q. What is t
> A warm pitcher of lemonade is put into an ice chest. Describe what happens to the entropies of lemonade and ice as heat flows from the lemonade to the ice within the chest.
> Can a heat engine be made to operate without creating any “thermal pollution,” that is, without making its cold reservoir get warmer in the long run? The net work output must be greater than zero.
> A magnetic dipole antenna has its axis aligned with the vertical. The antenna sends out radio waves. If you are due south of the antenna, what is the polarization state of the radio waves that reach you?
> An x-ray diffraction experiment using 16 keV x-rays is repeated using electrons instead of x-rays. What should the kinetic energy of the electrons be in order to produce a diffraction pattern with maxima at the same angles as the x-rays (using the same c
> An 81 kg student who has just studied matter waves is concerned that he may be diffracted as he walks through a doorway that is 81 cm across and 12 cm thick. (a) If the wavelength of the student must be about the same size as the doorway to exhibit diff
> A cylindrical disk has volume 8.97 × 10−3 m3 and mass 8.16 kg. The disk is floating on the surface of some water with its flat surfaces horizontal. The area of each flat surface is 0.640 m2. (a) What is the specific gravity of the disk? (b) How far belo
> The mass density of diamond (a crystalline form of carbon) is 3500 kg/m3. How many carbon atoms per cubic centimeter are there?
> A toy car with a mass of 120 g moves to the right with a speed of 0.75 m/s. A small child drops a 30.0 g piece of clay onto the car. The clay sticks to the car and the car continues to the right. What is the change in speed of the car? Consider the frict
> A solar cell provides an emf of 0.45 V. (a) If the cell supplies a constant current of 18.0 mA for 9.0 h, how much electric energy does it supply? (b) What is the power—the rate at which it supplies electric energy?
> A voltmeter with a resistance of 670 kΩ is used to measure the voltage across the 83.0 kΩ resistor in the figure with Problems 79 and 80. What is the voltmeter reading?
> Is it possible to make a heat pump with a coefficient of performance equal to 1? Explain.
> In an amusement park rocket ride, cars are suspended from 4.25 m cables attached to rotating arms at a distance of 6.00 m from the axis of rotation. The cables swing out at a constant angle of 45.0° when the ride is operating. What is the angu
> A wire with cross-sectional area A carries a current I. Assuming the wire is ohmic, show that the electric field strength E in the wire is proportional to the current per unit area (I/A) and identify the constant of proportionality.
> 1. The image of an object in a plane mirror (a) is always smaller than the object. (b) is always the same size as the object. (c) is always larger than the object. (d) can be larger, smaller, or the same size as the object, depending on the distance betw
> A meson with charge +e composed of up and/or strange quarks and/or antiquarks.
> Light rays travel from left to right through a lens. If a virtual image is formed, on which side of the lens is it? On which side would a real image be found?
> Six wooden blocks (mass m) float in a barrel of water. The blocks are not all made from the same type of wood. The bottom of each block is submerged to a depth d below the water surface. Rank the blocks in order of the buoyant force on them, largest to s
> Michelle is enjoying a picnic across the valley from a cliff. She claps her hands and the echo takes 1.5 s to return. Given that the speed of sound in air is 343 m/s on that day, how far away is the cliff?
> /is radioactive; it decays to / . / is itself radioactive and has a half-life of 4.6 s. At t = 0, a sample contains 4.00 mol of / and 1.50 mol of/. At t = 25 µs, the sample contains 3.00 mol of/ and 2.50 mol of /. How much/ will there be at t = 50 µs?
> What is the purpose of having fins on an automobile or motorcycle radiator?
> Geraldine uses a 423 nm coherent light source and a double slit with a slit separation of 20.0 µm to display three interference maxima on a screen that is 20.0 cm wide. If she wants to spread the three bright fringes across the full width of the screen,
> The posture of small animals may prevent them from being blown over by the wind. For example, with wind blowing from the side, a small insect stands with bent legs; the more bent the legs, the lower the body and the smaller the angle θ. The
> The radioisotope 131I, used to diagnose and treat thyroid conditions, can be produced by neutron activation of tellurium inside a nuclear reactor. A hospital receives a shipment of 131I with an initial activity of 3.7 × 1010 Bq. After 2.5 days, several p
> A highway is made of concrete slabs that are 15 m long at 20.0°C. (a) If the temperature range at the location of the highway is from−20.0°C to +40.0°C, what size expansion gap should be left (at 20.0°C) to prevent buckling of the highway? (b) How larg
> Three equal charges are placed on three corners of a square. If the force that Qa exerts on Qb has magnitude Fba and the force that Qa exerts on Qc has magnitude Fca, what is the ratio of Fca to Fba?
> Diana is standing on a raft of mass 100.0 kg that is floating on a still lake. She decides to walk the length of the raft. If Diana's mass is 55 kg and she walks with a velocity of 0.91 m/s with respect to the shore, how fast and in what direction does t
> Near a large lake, in what direction does a breeze passing over the land tend to blow at night?
> The weight of a boat is listed on specification sheets as its “displacement.” Explain.
> A common flashlight bulb is rated at 0.300 A and 2.90 V (the values of current and voltage under operating conditions). If the resistance of the bulb's tungsten filament at room temperature (20.0°C) is 1.10 Ω, estimate the temperature of the tungsten fil
> Three point charges are placed at the corners of an equilateral triangle having sides of 0.150 m. (a) What is the total electric force on the 2.50 µC charge? (b) What is the electric potential energy of the three charges?
> The force that must be exerted to drive a nail into a wall is roughly as shown in the graph. The first 1.2 cm are through soft drywall; then the nail enters the solid wooden stud. How much work must be done to hammer the nail a horizontal distance of 5.0
> In the crossover network of the figure, the crossover frequency is found to be 252 Hz. The capacitance is C = 560 µF. Assume the inductor to be ideal. (a) What is the impedance of the tweeter branch (the capacitor in series with the 8.0 &Ic
> A soccer ball of diameter 31 cm rolls without slipping at a linear speed of 2.8 m/s. (a) Through how many revolutions has the soccer ball turned as it moves a linear distance of 18 m? (b) What is the ball’s angular speed?
> An elevator cable winds on a drum of radius 90.0 cm that is connected to a motor. (a) If the elevator moves down at 0.50 m/s, what is the angular speed of the drum? (b) If the elevator moves down 6.0 m, how many revolutions has the drum made? (c) What
> Suppose that it takes tensile forces of magnitude F to produce a given strain ΔL/L in a steel wire of cross-sectional area A. If you had two such wires side by side and stretched them simultaneously, what magnitude tensile forces would be required to pro
> 1. If the figure shows the wavefronts for a double-slit interference experiment with light, at which of the labeled points is the intensity zero? The wavefronts represent wave crests only (not crests and troughs). (a) A only (b) B only (c) C only (d) A a
> A metal plant stand on a wooden deck feels colder than the wood around it. Is it necessarily colder? Explain.
> Why are vineyards planted along lakeshores or river-banks in cold climates?
> (a) Use a graphing calculator or computer graphing program to plot y versus x for the function for the times t = 0, 1.0 s, and 2.0 s. Use the values k = (π/5.0) rad/cm and ω = (π/6.0) rad/s. (b) Is this a traveling wave?
> An electric heater is plugged into an ac outlet. Since the ac current changes polarity, there is no net movement of electrons through the heating element; the electrons just tend to oscillate back and forth. How, then, does the heating element heat up? D
> A pendulum bob hung from a string of length L is released from height h above the bottom of its swing. The pendulum’s swing is interrupted by a horizontal peg at height r above the bottom of the pendulum’s swing (point
> A photon is incident on an electron at rest. The scattered photon has a wavelength of 2.81 pm and moves at an angle of 29.5° with respect to the direction of the incident photon. (a) What is the wavelength of the incident photon? (b) What is the final
> Why are several layers of clothing warmer than one coat of equal weight?
> A certain pipe has resonant frequencies of 234 Hz, 390 Hz, and 546 Hz, with no other resonant frequencies between these values. (a) Is this a pipe open at both ends or closed at one end? (b) What is the fundamental frequency of this pipe? (c) How long
> Why is drinking water in a camp located near the equator often kept in porous jars?
> A 40 Hz sound wave is barely audible at a sound intensity level of 60 dB. What is the displacement amplitude of this sound wave? Compare it with the average distance between molecules in air at room temperature, about 3 nm.
> If the angle of incidence is greater than the angle of refraction for a light beam passing an interface, what can be said about the relative values of the indices of refraction and the speed of light in the first and second media?
> In the diagram, regions A and C extend far to the left and right, respectively. The electric field due to the two point charges is zero at some point in which region or regions? Explain.
> The Bohr theory of the hydrogen atom ignores gravitational forces between the electron and the proton. Make a calculation to justify this omission. [Hint: Find the ratio of the gravitational and electrostatic forces acting on the electron due to the prot
> The tension in a guitar string is increased by 15%. What happens to the fundamental frequency of the string?
> (a) Assume Earth is a uniform solid sphere. Find the kinetic energy of Earth due to its rotation about its axis. (b) Suppose we could somehow extract 1.0% of Earth's rotational kinetic energy to use for other purposes. By how much would that change the
> A 0.67 mH inductor and a 130Ω. resistor are placed in series with a 24 V battery. (a) How long will it take for the current to reach 67% of its maximum value? (b) What is the maximum energy stored in the inductor? (c) How long will it take for the ene
> A pendulum consists of a bob of mass m attached to the end of a cord of length L. The pendulum is released from a point at a height of L/2 above the lowest point of the swing. What is the tension in the cord as the bob passes the lowest point?
> In a game of pool, suppose that the cue ball initially moves in the −x- direction. After a collision with the 4-ball of equal mass, the cue ball moves at 52.0° above the −x-axis and the 4-ball moves at 38.0° below the −x-axis. Find the ratio of the balls
> A particle collides with a hydrogen atom in the n = 2 state, transferring 15.0 eV of energy to the atom. As a result, the electron breaks away from the hydrogen nucleus. What is the kinetic energy of the electron when it is far from the nucleus?
> A 750 kg automobile is moving at 20.0 m/s at a height of 5.0 m above the bottom of a hill when it runs out of gasoline. The car coasts down the hill and then continues coasting up the other side until it comes to rest. Ignoring frictional forces and air
> The figure shows the lowest six energy levels of the outer electron in sodium. In the ground state, the electron is in the “3s” level. (a) What is the ionization energy of sodium? (b) What is the wavelength of the ra
> Two copper wires, one double the diameter of the other, have the same current flowing through them. If the thinner wire has a drift speed ν1 and the thicker wire has a drift speed ν2, how do the drift speeds of the charge carriers compare?
> Why do we call the temperature 0 K “absolute zero”? How is 0 K fundamentally different from 0°C or 0°F?
> A 60.0 kg woman stands at one end of a 120 kg raft that is 6.0 m long. The other end of the raft is 0.50 m from a pier. (a) The woman walks toward the pier until she gets to the other end of the raft and stops there. Now what is the distance between the
> When a virtual image is formed by a mirror, is it in front of the mirror or behind it? What about a real image?
> A capacitor and a resistor are connected in parallel across an ac source. The reactance of the capacitor is equal to the resistance of the resistor. Assuming that iC(t) = I sin ωt, sketch graphs of iC(t) and iR(t) on the same axes.