In this problem we have to use f=N =(coefficient of static friction)*Normal force
Normal will be difference of mg and attraction force between q1 and q3.
A charge of +1.9 micro-coulombs lies on a horizontal surface. It has a mass of 2...
A charge of +1.9 micro-coulombs lies on a horizontal surface. It has a mass of 3 kg and the coefficient of static friction between it and the surface is 1.78. Another charge of -2.3 micro-coulombs lies on the horizontal surface 9 cm to the right of the charge. A third charge which is negative is located 19 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...
A charge of +1.5 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 1.55. Another charge of -3.5 micro-coulombs lies on the horizontal surface 9 cm to the right of the charge. A third charge which is negative is located 18 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...
A charge of +1.7 micro-coulombs lies on a horizontal surface. It has a mass of 4 kg and the coefficient of static friction between it and the surface is 1.78. Another charge of -2.2 micro-coulombs lies on the horizontal surface 11 cm to the right of the charge. A third charge which is negative is located 16 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...
A charge of +1.6 micro-coulombs lies on a horizontal surface. It has a mass of 3 kg and the coefficient of static friction between it and the surface is 1.77. Another charge of -3.5 micro-coulombs lies on the horizontal surface 7 cm to the right of the charge. A third charge which is negative is located 18 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...
A charge of +1.5 micro-coulombs lies on a horizontal surface. It has a mass of 3 kg and the coefficient of static friction between it and the surface is 1.54. Another charge of -3.6 micro- coulombs lies on the horizontal surface 9 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...
A charge of +1.9 micro-coulombs lies on a horizontal surface. It has a mass of 3 kg and the coefficient of static friction between it and the surface is 1.72. Another charge of -2.9 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...
A charge of +1.7 micro-coulombs lies on a horizontal surface. It has a mass of 3 kg and the coefficient of static friction between it and the surface is 1.57. Another charge of -3.1 micro-coulombs lies on the horizontal surface 9 cm to the right of the charge. A third charge which is negative is located 19 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...
D | Question 5 18 pts A charge of +1.7 micro-coulombs lies on a horizontal surface. It has a mass of 3 kg and the coefficient of static friction between it and the surface is 1.6. Another charge of -2.6 micro-coulombs lies on the horizontal surface 8 cm to the right of the charge. A third charge which is negative is located 20 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to...
A charge of +1.5 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 1.55. Another charge of -3.5 micro-coulombs lies on the horizontal surface 9 cm to the right of the charge. A third charge which is negative is located 18 cm above the positive charge on the surface. What is the smallest magnitude this charge needs to be in order for the positive...
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 1.75. Another charge of -3.3 micro-coulombs lies on the horizontal surface 11 cm to the right of the charge. A third charge which is negative is located 10 cm above the positive charge on the surface. What is the smallest magnitude this charge needs in order for the positive charge to...