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Please Answer Question Clearly and Completely. Thank You. P 41 (EXTRA CREDIT). A horizontal metal bar...
A 35.0 g horizontal metal bar, 8.50 cm long, is free to slide up and down along two tall, vertical metal rods that are 8.50 cm apart. A 0.250 resistor is connected across the two rods at the top and a 0.600 T magnetic field is directed perpendicular to the plane of the rods (out of the page). The metal bar is raised to the top of the rods and then released. Assume that the bar remains horizontal and...
Please answer both parts Part A) A 55 g horizontal metal bar, 12-cm-long, is free to slide up and down between two tall, vertical metal rods that are 12 cm apart. A 5.5×10−2 Tmagnetic field is directed perpendicular to the plane of the rods. The bar is raised to near the top of the rods, and a 1.2 Ω resistor is connected across the two rods at the top. Then the bar is dropped. 1)What is the terminal speed at...
A .0500 kg horizontal metal bar, .120 m long, is free to slide up and down the wall between two tall vertical metal rods that are .120 m apart. A .0600 T magnetic field is directed perpendicular to the plane of the rods. The bar is raised to near the top of the rods, and a 1.00 ohm resistor is connected across the two rods at the top. Then the bar is dropped. What is the terminal speed at which...
please help Problem 25.5 A 30 g horizontal metal bar, 13-cm-long, is free to slide up and down between two tall, vertical metal rods that are 13 cm apart. A 6.0x10-2 T magnetic field is directed perpendicular to the plane of the rods. The bar is raised to near the top of the rods, and a 1.0 12 resistor is connected across the two rods at the top. Then the bar is dropped. Part A What is the term Express...
Sorry this question has so many steps--Thank you in advance for the extra effort:) Before proceeding with the video analysis, you will need to determine how the force the prod exerts on the hanging ball (the Coulomb force, F.) depends on 10 REALTIME PHYSICS: ELECTRICITY AND MAGNETISM the position of the hanging ball. This will allow you to calculate the values of the Coulomb force using the data from your video analysis. The situation is shown in the diagram below....