**Problem Statement:**You take a conducting wire with a total length of 10.0 m and form a square with it. A uniform magnetic field is oriented \(30.0^\circ\) above the plane of the square. If the magnitude of the magnetic field is \(1.20 \, T\), what is the magnetic flux through the square?**Diagram Description:**The diagram illustrates a square formed from a conducting wire. A uniform magnetic field, denoted by \(\vec{B}\), is shown as a blue arrow pointing diagonally through the plane of the square. The magnetic field is oriented at an angle of \(30^\circ\) above the plane of the square.**Options for the magnetic flux:**- \(12.0 \, T \cdot m^2\)- None of the other answers.- \(7.50 \, T \cdot m^2\)- \(3.75 \, T \cdot m^2\)- \(6.50 \, T \cdot m^2\)The task is to determine the correct value of the magnetic flux through the square, considering the given conditions.

Answered: You take a conducting wire with a total…

Similar questions

I R The radius of a long, solid, cylindrical conductor is R = 8.0 cm. A current I = 1.0 A is uniformly distributed through the conductor and is flowing out of the page. Calculate the magnitude of the magnetic field at r = 3.2 cm? OA) 2.5 x 10-10 T O B) 25 T ○ C) 10-6 T OD) 6.25 x 10-5 T ○ E) 0.25 T
9
You take a conducting wire with a total length of 10.0m and form a square with it. A uniform magnetic field is oriented 30.0° above the plane of the square. If the magnitude of the magnetic field is 1.20T, what is the magnetic flux through the square? Uniform B – field - 30° 3.75 T · m² 6.50 T · m2 12.0T· m² None of the other answers. 7.50 T · m²
005 A long, thin conductor carries a current of 9.24 A. At what distance from the conductor is the magnitude of the resulting magnetic field 0.000153 T? Answer in units of cm.
A long straight wire carries a current of 40 A in a region where a uniform external magnetic field has a 30 µT magnitude and is parallel to the current. What is the magnitude of the resultant magnetic field at a point that is 3.5 cm from the wire? a. 230.53 µT O b. 77.74 µT с. 65.31 иT d. 428.67 µT е. 30.00 иT
A washer with inner diameter 5.0 cm is carried in your pocket as you walk directly north according to your magnetic compass. Assume the normal to the washer's plane is exactly horizontal, pointing toward magnetic north. The Earth's magnetic field strength is 0.056 mT. If the magnetic flux through the washer's opening is 36 nTm2, what is the angle below local horizontal that the magnetic field vector points?
A long straight wire carries a current of 40 A in a region where a uniform external magnetic field has a 30 µT magnitude and is parallel to the current. What is the magnitude of the resultant magnetic field at a point that is 3.5 cm from the wire? a. 230.53 µT b. 77.74 µT с. 65.31 иT d. 428.67 μΤ e. 30.00 µT
The figure shows the cross section of a long conducting cylinder with inner radius a= 2cm and outer radius b-4cm. the cylinder carries a current out of the page and the current density in the cross section is given by j=cr^2 with c=3x10^6 A/m^4 and r in meters What is the magnetic field B at a point 3 cm from the central axis of the cylinder?