Please answer all the questions!!!
Please answer all the questions!!! Let's say you want to "float" a section of copper wire,...
Let's say you want to "float" a section of copper wire, which is 7.65 cm long and 2.34 mm in diameter within the magnetic field of Earth near the Earth's surface. Assume the magnetic field of Earth makes a 31° with respect to the horizontal and has a magnitude of 3.5.x10-5 T. The current is flowing from west to east. See the diagram given below. 5.Draw a Free Body Diagram of the wire. 22-degrees B 6. What is the value...
Let’s say you want to “float” a section of copper wire, which is 7.65 cm long and 2.34 mm in diameter within the magnetic field of Earth near the Earth’s surface. Assume the magnetic field of Earth makes a 31° with respect to the horizontal and has a magnitude of 3.5.×10-5 T. The current is flowing from west to east. See the diagram given below. Let's say you want to "float" a section of copper wire, which is 7.65 cm...
Suppose a straight 1.55 mm -diameter copper wire could just "float" horizontally in air because of the force due to the Earth's magnetic field B⃗ , which is horizontal, perpendicular to the wire, and of magnitude 4.4×10−5 What current would the wire carry? Does the answer seem feasible?
Suppose a straight 1.40 mmmm -diameter copper wire could just "float" horizontally in air because of the force due to the Earth's magnetic field B which is horizontal, perpendicular to the wire, and of magnitude 4.8×10−5 T. Part A) What current would the wire carry? Part B) Does the answer seem feasible? (Yes or No)
a) Suppose a straight 1.40 mm -diameter copper wire could just "float" horizontally in air because of the force due to the Earth's magnetic field B⃗, which is horizontal, perpendicular to the wire, and of magnitude 3.4×10−5 T . What current would the wire carry? Does the answer seem feasible? Explain why. b) The force on a wire carrying 7.95 A is a maximum of 2.13 N when placed between the pole faces of a magnet If the pole faces...
Suppose a straight 1.25 mm -diameter copper wire could just "float" horizontally in air because of the force due to the Earth's magnetic field B⃗ , which is horizontal, perpendicular to the wire, and of magnitude 6.4×10−5 T . Part A What current would the wire carry? Express your answer using two significant figures. Part B Does the answer seem feasible? Does the answer seem feasible? yes no
Suppose a straight 1.65 mm -diameter copper wire could just "float" horizontally in air because of the force due to the Earth's magnetic field B⃗ , which is horizontal, perpendicular to the wire, and of magnitude 4.5×10−5 T . A) What current would the wire carry? Express your answer using two significant figures. B) Explain briefly. Essay answers are limited to about 500 words (3800 characters maximum, including spaces).
I need the answers to these ten questions. They are attached below. Please answer all of them. Thank you so so much!!!! Which of the following situations is not true for magnets? Like poles repel each other. O Unlike poles repel each other North poles repel each other. A north pole and a south pole will attract each other. Which circle has minimum flux in the following figure? O circle P O circle Q O circle R circle S One...
please answer each section!! extremely important LABORATORY 9 MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE Objectives to be able to determine the magnitude and direction of the force on a current- carrying wire in a magnetic field to be able to apply Newton's Laws in magnetostatics to be able to experimentally determine the relationship between the force on a current-carrying wire in a magnetic field and the current through the wire to be able to experimentally determine the relationship between...
Can someone please help me with D and E. Constants Part A To understand the magnetic force on a straight current-carrying wire in a uniform magnetic field. Magnetic fields exert forces on moving charged particles, whether those charges are moving independently or are confined to a current- carrying wire. The magnetic force Fon an individual moving charged particle depends on its velocity and charge er. In the case of a current-carrying wire, many charged particles are simultaneously in motion, so...