A 10 cm x 10 cm square is bent at a 90° angle. A uniform 5.10x10-² T magnetic field points downward at a 45° angle. (Figure 1) You may want to review (Pages 843-845). For help with math skills, you may want to review: Figure 45% 5 cm TRO B 1 1 of 1 > 5 cm 10 cm Part A What is the magnetic flux through the loop? Express your answer with the appropriate units. ▸ View Available Hint(s) x² Xb 3.54104 X.10n Review | C Wb ? Submit Previous Answers Request Answer
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- Constants A circular area with a radius of 7.00 cm lies in the zy-plane. What is the magnitude of the magnetic flux through this circle due to a uniform magnetic field with a magnitude of 0.270 T in the + z-direction? You may want to review (Page) For related problemsolving tips and strategies, you may want to view a Video Tutor Solution of Magnetic flux calculations ? OB = Wb Submit Request Answer Part B What is the magnitude of the magnetic flux through this circle due to the same magnetic field (with a magnitude of 0.270 T ), now at an angle of 54.7 ° from the + z -direction? Wb Submit Request Answer Part C What is the magnitude of the magnetic flux through this circle due to the same magnetic field (with a magntiude of 0.270 T ), now in the + y -direction?The two insulated wires in (Figure 1) cross at a 30° angle but do not make electrical contact. Each wire carries a 5.0 A current. Points 1 and 2 are each 3.5 cm from the intersection and equally distant from both wires. Figure 5.0 A 5.0 A •2 < 1 of 1 Part A What is the magnetic field at point 1? Express your answer in microteslas. Enter your answer as positive if the magnetic field is directed into the page and as negative if the magnetic field is directed out of the page. ► View Available Hint(s) B₁ = Submit Part B B₂ = What is the magnetic field at point 2? Express your answer in microteslas. Enter your answer as positive if the magnetic field is directed into the page and as negative if the magnetic field is directed out of the page. ► View Available Hint(s) Submit ΑΣΦ Provide Feedback V ΑΣΦ μT ? μ.I need help understanding this problem. These are the correct answers I just need a break down of how to get them.
- For help with math skills, you may want to review: The Vector Cross Product 1 The Vector Cross Product 2 Part A What is the strength of the magnetic field at point P in (Figure 1)? Assume that I = 6.0 A, r₁ = 0.70 cm, and T2 = 1.4 cm. Express your answer with the appropriate units. Figure P 1 of 1 ΜΑ B = Value Units Submit Previous Answers Request Answer ? × Incorrect; Try Again; 2 attempts remainingA circular coil 13.0 cm in diameter and containing nine loops lies flat on the ground. The Earth's magnetic field at this location has magnitude 4.50 × 10-5 T and points into the Earth at an angle of 59.0° below a line pointing due north. A 6.30-A clockwise current passes through the coil. Part A Determine the torque on the coil.Please asap
- ▼ Part A Suppose you have a magnetic field with a strongth of 45 uT directed along the m-axis. If a 34 cm x 50 cm wire loop is placed at a 60-degree angle to the z axis before being shifted to a 30-degree angle to the z-axis. what is the difforonce in flux within the loop? Note: 1 Wb= T m². Express your answer in webers. Γ.Γ ΑΣΦ 30-60 2.80.10 6 → C Submit Previous Answers Request Answer X Incorrect; Try Again; One attempt remaining ? WhPoint A in (Figure 1) is 6.0 mm from the wire. Assume that the wire is very long and that all other wires are too far away to contribute to the magnetic field. Figure ww 20 Ω 60 V + 100 Ω . A < 30 Ω 1 of 1 www Part A What is the magnetic field strength at point A? Express your answer with the appropriate units. BA= Submit 2² Provide Feedback μА Value Request Answer Units ?A 0.56 m copper rod with a mass of 5.00x10-2 kg carries a current of 10 A in the positive x direction. Let upward be the positive y direction. Part A What is the magnitude of the minimum magnetic field needed to levitate the rod? Express your answer using two significant figures. Hνα ΑΣφ B = T
- Two very long wires are parallel to each other separated by a distance d. The same current flows through each wire but in opposite directions. See the arrows in the diagram. Let I = 1 Amp and d = 0.1 meter. a) What is the direction of the net magnetic field due to the two, long wires in the space between the wires? Explain your answer. b) Calculate the magnitude of the net field at point P, which is half-way between the wires. c) Calculate the magnitude of the magnetic force per unit length due to wire #1 on #2. d) Determine the direction of the force calculated in part (c) and explain your answer.Part E A straight wire carries a current of 1.20 A. The length vector of the wire is l = (0.200 m)i+ (-0.120 m)j, and the wire is in a uniform magnetic field B= (0.0175 T)k. Find the x-component of the magnetic force on the wire. Express your answer with the appropriate units. HẢ ? F = Value Units %3D Submit Request Answer Part F Find the y-component of the magnetic force on the wire. Express your answer with the appropriate units. Ti HẢ ? Fy = Value Units Submit Request Answer Part G Find the z-component of the magnetic force on the wire. Express your answer with the appropriate units. HA F = Value Units Submit Request AnswerA current I is passed through a wire. A second wire of length L is moving perpendicular to the magnetic field generated by the first wire (see sketch below) with velocity v at a distance d. Consider the magnetic field B to be constant over the range / of motion of the second wire (i.e. d > 1). You need to calculate the potential generated between the ends of the second wire. Please select statements that would describe your approach to solving the problem. Wire 1 Wire 2 d a. Use an expression for the electromotive force (EMF) induced by the magnetic field. b. Use the expression for the magnetic force between two current-carrying wires. C. Use the expression for the magnetic field of a current-carrying wire.