Course Contents > Correction Exams > Question 7 • Timer Notes Evaluate Feedback Print The figure...
[ Course Contents » Correction Exams » < Timer Notes Evaluate Feedback 9 Print In a double-slit experiment, the fifth- order bright fringe is observed at an angle of 1.64°. If the slit separation is 0.12 mm, then what is the wavelength of the light? (1.72x10^-6m Submit Answer Incorrect. Trie /20 Previou Tries @ Post Discussion 13 Send Feedback
Course Contents Correction Exams Correctionem Duerday Question 11 • Timer Notes Evaluate Feedback Print A patient is having a magnetic resonance imaging scan (an MRI) and has neglected to remove a 6.5 cm diameter metallic bracelet. The resistance of the bracelet is 0.0190 22. The magnetic field within the MRI'S solenoid is perpendicular to the opening of her bracelet. While taking the scan, the magnetic field decreases from 1.35 T to 0.37 T in 1.50 seconds. What is the magnitude...
Main Menu Contents | Grades Course Contents » Correction Exams » • Timer Notes Evaluate Feedback Print A positive charge of 4.50 C is fixed in place. From a distance of 4.80 cm a particle of mass 6.20 g and charge +3.50 C is fired with an initial speed of 80.0 m/s directly toward the fixed charge. How close to the fixed charge does the particle get before it comes to rest and starts traveling away? Submit Answer Tries 0/20...
(-)Timer -] Notes Evaluate e Feedback e Print Course Contents » Correction #3 6.60 liters of Nitrogen gas at 24.0°C temperature and 3.50 atm pressure contains how maný moles? Submit Answer Tries 0/12 (-)Timer -] Notes Evaluate e Feedback e Print Course Contents » Correction #3 6.60 liters of Nitrogen gas at 24.0°C temperature and 3.50 atm pressure contains how maný moles? Submit Answer Tries 0/12
イ° Timer □Notes Evaluate ω Feedback- Print Info The figure below shows two points in an electric field. Point l is at (X1M-(3,4) and po nt 2 isat (X2%) (12,9). (The ordinates at oivt is motreectric field is constant with a magnitude of 56.3 vm, and is directed parallel to the +X-axis. The potential Calculate the work required to move a negative charge of Q-539.0 uC from point 1 to point 2. (in J) A: 8.96x102B: 1.30x10c: 1.88x10D: 2.73x101 E:...
The figure below shows two points in an electric field. Point 1 is at (X1,Y1) = (3,4), and point 2 is at (X2,Y2) = (12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 74.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1200.0 V. Calculate the potential at point 2. 5.31×102 V. Previous Tries Calculate the work required to move a negative charge of Q=-493.0 μC from...
Course Contents» Homework Set 2 (due Friday 1/.. Electric Potential Timer □ Notes Evaluate Feedback-Print The electric potential at a position located a distance of 20.4 mm from a positive point charge of 8.50x10-9C and 13.6 mm from a second point charge is 1.18 kV. Calculate the value of the second charge
Course Contents ... chapter 5 Charge and - Timer Notes Evaluate Feedback Print Info Three capacitors of capacitance C1=4.00 uF, C2 = 7.00 uF, and C3=20.0 uF are connected to a 40.0 V battery as shown in the figure. Tumor Motor as shown in the picura.00 pF, C, Calculate the charge on C3. Submit Answer Tries 0/12 Calculate the voltage across C1. Submit Answer Tries 0/12
The figure below shows two points in an electric field. Point 1 is at (X1,Y1) = (3,4), and point 2 is at (X2,Y2) = (12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 53.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1200.0 V. Calculate the potential at point 2 Submit Answer Tries 0/12 Calculate the work required to move a negative charge of Q=-470.0 μC from...
The figure below shows two points in an electric field. Point 1 is at (X1,Y1) = (3,4), and point 2 is at (X2,Y2) = (12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 62.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1200.0 V. Calculate the potential at point 2. Calculate the work required to move a negative charge of Q=-470.0 μC from point 1 to point...