A two meter long thin rod is composed of two different materials (fused together). Metal 1...

A long thin rod of length L has a linear density λ(x)= A(L-x)^2 where x is...

A long thin rod of length L has a linear density λ(x)= A(L-x)^2 where x is the distance from the left end of the rod. a) What is the mass of the bar? b) How far is the center of mass of the bar from the left end of the bar?

The linear mass density of a thin rod is given by Lambda(l) = 2e-l lb ft^-1,...

The linear mass density of a thin rod is given by Lambda(l) = 2e-l lb ft^-1, where l is a dimensionless variable representing the length in meter. The total length of the rod is 2 m. What is the mass of the rod in the SI unit? Given: 1 ft 0.305 m, 1 lb 0.454 kg

A thin rod sits along the xx axis with one end at x= -1.4 m and...

A thin rod sits along the xx axis with one end at x= -1.4 m and the other end at x= 3.5 m. The rod has a non-uniform density that increases linearly from 1.1 kg/m at the left end to 3.0 kg/m at the right end a What is the total mass of the rod? answer 10 kg b Where is the center of mass of the rod located? find it

A long thin rod lies on the x axis with one end at the origin and...

A long thin rod lies on the x axis with one end at the origin and the other at the 4 cm point. It has a uniform linear charge density of 125 nano C/m. Find the E field due to this rod at the 52 cm position on the x axis. Find the force exerted by the rod on a point charge of 5 micro coulombs placed at a position of 109 cm on the x axis if the rod...

1. A metal rod 54.0 m long at 32°C is heated to 64°C. By how much...

1. A metal rod 54.0 m long at 32°C is heated to 64°C. By how much does the length of the rod change (in cm) if the coefficient of linear expansion of the rod is 32 x 10-6 1/°C? ?? cm 2. A metal rod 77.0 m long at 39°C is heated to 76°C. By how much does the length of the rod change (in cm) if the coefficient of linear expansion of the rod is 54 x 10-6 1/°C?...

A thin 1 m long uniform rod with a total mass of 750g is suspended vertically...

A thin 1 m long uniform rod with a total mass of 750g is suspended vertically at the upper end. The moment of inertia of the rod in respect to the center of mass is mL*2/12 (where L is the total lenght of the rod). A 9 g bullet is shot to the lower end of the rod and embeds there. The bullet speed before impact is 580 m/s. Calculate the amount of energy transfered to the heat during the...

A 10-cm-long thin glass rod uniformly charged to 13.0 nC and a 10-cm-long thin plastic rod...

A 10-cm-long thin glass rod uniformly charged to 13.0 nC and a 10-cm-long thin plastic rod uniformly charged to - 13.0 nC are placed side by side, 4.50 cm apart. What are the electric field strengths E1 to E3 at distances 1.0 cm, 2.0 cm, and 3.0 cm from the glass rod along the line connecting the midpoints of the two rods? 1) Specify the electric field strength E1. Express your answer with the appropriate units. 2) Specify the electric...

A thin, cylindrical rod ℓ = 27.0 cm long with a mass m = 1.20 kg...

A thin, cylindrical rod ℓ = 27.0 cm long with a mass m = 1.20 kg has a ball of diameter d = 10.00 cm and mass M = 2.00 kg attached to one end. The arrangement is originally vertical and stationary, with the ball at the top as shown in the figure below. The combination is free to pivot about the bottom end of the rod after being given a slight nudge. (a) After the combination rotates through 90...

A.) Consider a non-rotating space station in the shape of a long thin uniform rod of...

A.) Consider a non-rotating space station in the shape of a long thin uniform rod of mass 4.20 x 10^6 kg and length 953 meters. Rocket motors on both ends of the rod are ignited, applying a constant force of F = 4.40 x 10^5 N to each end of the rod as shown in the diagram, causing the station to rotate about its center. If the motors are left running for 1 minutes and 26 seconds before shutting off,...

A.) Consider a non-rotating space station in the shape of a long thin uniform rod of...

A.) Consider a non-rotating space station in the shape of a long thin uniform rod of mass 4.96 x 10^6 kg and length 530 meters. Rocket motors on both ends of the rod are ignited, applying a constant force of F = 4.99 x 10^5 N to each end of the rod as shown in the diagram, causing the station to rotate about its center. If the motors are left running for 1 minutes and 28 seconds before shutting off,...