Determine the frequency at which two 1 mm thick shields, one made of copper and the...

Two circular rods, one steel and the other copper, are both 0.755 mm long and 1.50...

Two circular rods, one steel and the other copper, are both 0.755 mm long and 1.50 cm in diameter. Each is subjected to a force with magnitude 4250 N that compresses the rod. Use copper = 1.1*1011 and steel = 2.0 * 1011.   What is the difference in the length of the two rods when compressed? Express your answer in meters to two significant figures. Answer is NOT 6.05 x 10-5

Two rods, one made of brass and the other made of copper, are joined end to...

Two rods, one made of brass and the other made of copper, are joined end to end. The length of the brass section is 0.280m and the length of the copper section is 0.720m . Each segment has cross-sectional area 5.90

A triple riveted butt joint which is used to connect two 8 mm thick plates. The...

A triple riveted butt joint which is used to connect two 8 mm thick plates. The rivet diameter and the pitch are 10 mm and 50 mm respectively. Determine the efficiency of the riveting system. Assume the rivet material has the same properties of plate material used if need power 1kw velocity 500rpm ultimate stress 680Mpa yield stress 400Mpa shaft diameter50mm   tension=compression

Your firm has designed a new 2m​ double-paned window which consists of two 5 mm thick...

Your firm has designed a new 2m​ double-paned window which consists of two 5 mm thick plates of glass (​k​ = 0.75 W/mK) separated by a 14 mm thick layer of xenon gas with an unknown thermal conductivity, which you intend to determine through an experiment. You use a heater that provides 100 W of heat to maintain one side of the window at 80 °C while the other 2​ side is exposed to the air in the room with...

1) a) Assume that you have two AISI 1045 cylindrical samples with two different diameters: one...

1) a) Assume that you have two AISI 1045 cylindrical samples with two different diameters: one 1 in. thick and the other 2 in. thick. You astenitize and quench both samples in water. Then you cut a section and measure the hardness at the center of each sample. Would you expect to get the same results? Explain your answer. b) Assume that you have two cylindrical steel samples with 1 in. diameter, one made out of AISI 1045 and another...

Two sinusoidal waves of the same frequency are to be sent in the same direction along...

Two sinusoidal waves of the same frequency are to be sent in the same direction along a taut string. One wave has an amplitude of 6.7 mm, the other 10.2 mm. (a) What phase difference φ1 between the two waves results in the smallest amplitude of the resultant wave? (b) What is that smallest amplitude? (c) What phase difference φ2 results in the largest amplitude of the resultant wave? (d) What is that largest amplitude? (e) What is the resultant...

Two sinusoidal waves of the same frequency are to be sent in the same direction along...

Two sinusoidal waves of the same frequency are to be sent in the same direction along a taut string. One wave has an amplitude of 6.2 mm, the other 8.5 mm. (a) What phase difference φ1 between the two waves results in the smallest amplitude of the resultant wave? (b) What is that smallest amplitude? (c) What phase difference φ2 results in the largest amplitude of the resultant wave? (d) What is that largest amplitude? (e) What is the resultant...

In the circuit shown in the diagram below, two thick wires connect a 1.7 volt battery...

In the circuit shown in the diagram below, two thick wires connect a 1.7 volt battery to a Nichrome (NiCr) wire. Each thick connecting wire is 15 cm long, and has a radius of 9 mm. The thick wires are made of copper, which has 8.36e+28 mobile electrons per cubic meter, and an electron mobility of 0.00434 (m/s)/(V/m). The Nichrome wire is 6 cm long, and has a radius of 5 mm. Nichrome has 9e+28 mobile electrons per cubic meter,...

Imagine you have a length of copper pipe and two small solid cylindrical objects - one...

Imagine you have a length of copper pipe and two small solid cylindrical objects - one made of aluminum (or plastic, if you wish) and the other is a bar magnet. You may assume that the aluminum cylinder and the bar magnet have the same size (small enough to fit through the copper pipe without touching the sides) and mass. Now imagine dropping the aluminum through the copper pipe, and then dropping the bar magnet through the copper pipe. Do...

A  wave of sinusoidal form has a frequency 1275 rads/s and a amplitude of 2.75 mm propagates...

A  wave of sinusoidal form has a frequency 1275 rads/s and a amplitude of 2.75 mm propagates along a cable with linear density of 2.35 g/m and tension 1245N (a) The average rate energy is moved by the wave to the opposite end of the cable is? (b) An identical wave, simultaneously travels along an adjacent identical cable, what is the total average rate at which energy is moved to the opposite ends of the two cables by the waves? Alternatively,...