Charge 1 of +5 micro-coulombs and a mass of 0.3 kg lies on a horizontal surface and charge 2 of -4 micro-coulombs is placed directly 0.51 meters above this charge on the surface. What is the normal force, in Newtons, acting on the charge on the surface? Show all work
Charge 1 of +5 micro-coulombs and a mass of 0.3 kg lies on a horizontal surface...
Charge 1 of +3 micro-coulombs and a mass of 0.3 kg lies on a horizontal surface and charge 2 of -5 micro-coulombs is placed directly 0.42 meters above this charge on the surface. What is the normal force, in Newtons, acting on the charge on the surface? please show your work thank you
Charge 1 of +3 micro-coulombs and a mass of 0.3 kg lies on a horizontal surface and charge 2 of -4 micro-coulombs is placed directly 0.49 meters above this charge on the surface. What is the normal force, in Newtons, acting on the charge on the surface?
Charge 1 of +4 micro-coulombs and a mass of 0.2 kg lies on a horizontal surface and charge 2 of -5 micro-coulombs is placed directly 0.60 meters above this charge on the surface. What is the normal force, in Newtons, acting on the charge on the surface?
Charge 1 of +4 micro-coulombs and a mass of 0.2 kg lies on a horizontal surface and charge 2 of -4 micro-coulombs is placed directly 0.56 meters above this charge on the surface. What is the normal force, in Newtons, acting on the charge on the surface?
A charge of +8.7 micro-coulombs with a mass of 9 kg lies on a horizontal surface. A charge of -8.7 micro-coulombs is placed directly above the mass on the surface. When the negative charge is placed at a certain point, the charge on the surface just begins to leave the surface. Call this r. What is the normal force on the charge on the surface when the negative is placed at a distance 5 times further than this in Newtons?...
A charge of +1.8 micro-coulombs lies on a horizontal surface. It has a mass of 2 kg and the coefficient of static friction between it and the surface is 1.69. Another charge of -3.9 micro- coulombs lies on the horizontal surface 10 cm to the right of the charge. A third charge which is negative is located 14 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the...
the total electric force on charge 1 measured counter-clockwise from the +x axis, in degrees? DQuestion 10 10.5 pts Charge 1 of +4 micro-coulombs and a mass of 0.3 kg lies on a horizontal surface and charge 2 of -5 micro-coulombs is placed directly 0.46 meters above this charge on the surface. What is the normal force, in Newtons, acting on the charge on the surface?
A uniform sheet of charge lies on a horizontal surface. A point charge of -6 micro-coulombs is located 0.23 meters below the sheet. At a point 0.23 meters above the sheet, directly above the charge, the total electric field from the sheet and the point charge is zero. Then, the point charge below the sheet is removed and a point charge of -5 micro-coulombs with a mass of 0.4 kg is placed 0.23 meters above the sheet and launched vertically...
A uniform sheet of charge lies on a horizontal surface. A point charge of -7 micro-coulombs is located 0.15 meters below the sheet. At a point 0.29 meters above the sheet, directly above the charge, the total electric field from the sheet and the point charge is zero. Then, the point charge below the sheet is removed and a point charge of -6 micro-coulombs with a mass of 0.4 kg is placed 0.29 meters above the sheet and launched vertically...
A charge of +1.6 micro-coulombs lies on a horizontal surface. It has a mass of 2 kg and the coefficient of static friction between it and the surface is 1.76. Another charge of -2.5 micro-coulombs lies on the horizontal surface 10 cm to the right of the charge. A third charge which is negative is located 13 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...