Problem 1AYP: The amplitude A and period T of f( x )=5sin( 4x ) are __ and ___. (pp. 412—414) Problem 2CV: The motion of an object obeys the equation d=4cos( 6t ) . Such motion is described as ____ ____. The... Problem 3CV: When a mass hanging from a spring is pulled down and then released, the motion is called ____ ____... Problem 4CV: True or False If the distance d of an object from its rest position at time t is given by a... Problem 5SB: In Problems 5-8, an object attached to a coiled spring is pulled down a distance a from its rest... Problem 6SB: In Problems 5-8, an object attached to a coiled spring is pulled down a distance a from its rest... Problem 7SB: In Problems 5-8, an object attached to a coiled spring is pulled down a distance a from its rest... Problem 8SB: In Problems 5-8, an object attached to a coiled spring is pulled down a distance a from its rest... Problem 9SB: Rework Problem 5 under the same conditions, except that at time t=0 , the object is at its resting... Problem 10SB: Rework Problem 6 under the same conditions, except that at time t=0 , the object is at its resting... Problem 11SB: Rework Problem 7 under the same conditions, except that at time t=0 , the object is at its resting... Problem 12SB: Rework Problem 8 under the same conditions, except that at time t=0 , the object is at its resting... Problem 13SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 14SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 15SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 16SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 17SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 18SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 19SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 20SB: In Problems 13-20, the displacement d (in meters) of an object at time t (in seconds) is given. (a)... Problem 21SB: In Problems 21-24, graph each damped vibration curve for 0t2 . d(t)= e t/ cos(2t) Problem 22SB: In Problems 21-24, graph each damped vibration curve for 0t2 . d(t)= e t/2 cos(2t) Problem 23SB: In Problems 21-24, graph each damped vibration curve for 0t2 . d(t)= e t/2 cost Problem 24SB: In Problems 21-24, graph each damped vibration curve for 0t2 . d(t)= e t/4 cost Problem 25SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. f(x)=x+cosx Problem 26SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. f(x)=x+cos(2x) Problem 27SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. f(x)=xsinx Problem 28SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. f(x)=xcosx Problem 29SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. f(x)=sinx+cosx Problem 30SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. f(x)=sin(2x)+cosx Problem 31SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. g(x)=sinx+sin(2x) Problem 32SB: In Problems 25-32, use the method of adding y-coordinates to graph each function. g(x)=cos(2x)+cosx Problem 33MP: In Problems 33-38, (a) use the Product-to-Sum Formulas to express each product as a sum, and (b) use... Problem 34MP: In Problems 33-38, (a) use the Product-to-Sum Formulas to express each product as a sum, and (b) use... Problem 35MP: In Problems 33-38, (a) use the Product-to-Sum Formulas to express each product as a sum, and (b) use... Problem 36MP: In Problems 33-38, (a) use the Product-to-Sum Formulas to express each product as a sum, and (b) use... Problem 37MP: In Problems 33-38, (a) use the Product-to-Sum Formulas to express each product as a sum, and (b) use... Problem 38MP: In Problems 3338, (a) use the ProducttoSum Formulas to express each product as a sum, and (b) use... Problem 39AE: In Problems 39-44, an object of mass m (in grams) attached to a coiled spring with damping factor b... Problem 40AE: In Problems 39-44, an object of mass m (in grams) attached to a coiled spring with damping factor b... Problem 41AE: In Problems 39-44, an object of mass m (in grams) attached to a coiled spring with damping factor b... Problem 42AE: In Problems 39-44, an object of mass m (in grams) attached to a coiled spring with damping factor b... Problem 43AE: In Problems 39-44, an object of mass m (in grams) attached to a coiled spring with damping factor b... Problem 44AE: In Problems 39-44, an object of mass m (in grams) attached to a coiled spring with damping factor b... Problem 45AE: In Problems 45-50. the distance d (in meters) of the bob of a pendulum of mass m (in kilograms) from... Problem 46AE: In Problems 45-50. the distance d (in meters) of the bob of a pendulum of mass m (in kilograms) from... Problem 47AE: In Problems 45-50. the distance d (in meters) of the bob of a pendulum of mass m (in kilograms) from... Problem 48AE: In Problems 45-50. the distance d (in meters) of the bob of a pendulum of mass m (in kilograms) from... Problem 49AE: In Problems 45-50. the distance d (in meters) of the bob of a pendulum of mass m (in kilograms) from... Problem 50AE: In Problems 45-50. the distance d (in meters) of the bob of a pendulum of mass m (in kilograms) from... Problem 51AE: Loudspeaker A loudspeaker diaphragm is oscillating in simple harmonic motion described by the... Problem 52AE: Colossus Added to Six Flags St. Louis in 1986, the Colossus is a giant Ferris wheel. Its diameter is... Problem 53AE: Tuning Fork The end of a tuning fork moves in simple harmonic motion described by the equation... Problem 54AE: Tuning Fork The end of a tuning fork moves in simple harmonic motion described by the equation... Problem 55AE: Charging a Capacitor See the illustration. If a charged capacitor is connected to a coil by closing... Problem 56AE: The Sawtooth Curve An oscilloscope often displays a sawtooth curve. This curve can be approximated... Problem 57AE: Touch-Tone Phones On a Touch-Tone phone, each button produces a unique sound. The sound produced is... Problem 58AE: Use a graphing utility to graph the sound emitted by the* key on a Touch-Tone phone. See Problem 57. Problem 59AE Problem 60AE Problem 61DW: Use a graphing utility to graph the function f( x )= sinx x ,x0 . Based on the graph, what do you... Problem 62DW: Use a graphing utility to graph y=xsinx,y= x 2 sinx,y= x 3 sinx for x0 . What patterns do you... Problem 63DW: Use a graphing utility to graph y= 1 x sinx,y= 1 x 2 sinxandy= 1 x 3 sinxforx0 . What patterns do... Problem 64DW: How would you explain to a friend what simple hormonic motion is? How would you explain damped... Problem 65RYK: Problems 65-68 are based on material learned earlier in the course. The purpose of these problems is... Problem 66RYK: Problems 65-68 are based on material learned earlier in the course. The purpose of these problems is... Problem 67RYK: Problems 65-68 are based on material learned earlier in the course. The purpose of these problems is... format_list_bulleted