A charged object, of net charge - 3.3 C and mass 7.1 kg, in placed into...

An object with a charge of -4.3 mu C and a mass of 4.6×10−2 kg experiences...

An object with a charge of -4.3 mu C and a mass of 4.6×10−2 kg experiences an upward electric force, due to a uniform electric field, equal in magnitude to its weight. A) Find the magnitude of the electric field. B) Find the direction of the electric field: upward downward to the left to the right c) If the electric charge on the object is doubled while its mass remains the same, find the direction and magnitude of its acceleration....

A) Three charged objects are placed in order A B C along a straight line. If...

A) Three charged objects are placed in order A B C along a straight line. If A is negative and the net electric force on B is zero, what is true about the charge of C? -Must be positive -Must be negative -Could be negative or positive B) When a proton is released in an electric field it -does not move. -moves perpendicular to the direction of field line -moves in the direction of field line -moves in the opposite...

7) A charge of -9 micro-coulombs with a mass of 11 kg is placed on a...

7) A charge of -9 micro-coulombs with a mass of 11 kg is placed on a horizontal surface. A uniform electric field is applied either in the +y or -y direction (perpendicular to the surface). In order to lift the charge off the surface (i.e. the normal force becomes zero) what does the minimum magnitude of the field need to be and in what direction does it need to be applied? Answer in 106 N/C as in previous problems and...

2. An object with charge of -54.0 nC is placed 11.2 cm above the origin on...

2. An object with charge of -54.0 nC is placed 11.2 cm above the origin on the +y-axis. A second object with charge of +42.0 nC is placed on the +x-axis 6.60 cm to the right of the origin. a. Find the magnitude and direction of the electric field at the origin. Q1 = -54.0 nC 11.2 cm Q2 = +42.0 nC 6.60 cm       b. Where would you place a -12.0 nC charged object to make the electric field...

A +1 C charge is placed at position (x,y)=(-2 m,0). A +1.5 C charge is placed...

A +1 C charge is placed at position (x,y)=(-2 m,0). A +1.5 C charge is placed at position (x,y)=(2 m, 0). a)  What is the electric potential energy of this charge configuration? b)  What is the electric field (magnitude and direction) at the origin? c) What is the electric field (magnitude and direction) at position (x,y)=(0 m, 1 m)? Please enter your answers in the space below and email your work.

Motion of Charge in Electric and Magnetic Fields  Consider the situation of two particles which...

Motion of Charge in Electric and Magnetic Fields  Consider the situation of two particles which have equal but opposite charges, +Q and -Q. The particles have identical mass. Discuss the following situations in terms of their motion and the work done on them by the relevant field. Where relevant, also provide a short discussion of the implications of these effects on the properties of the charged particles. If necessary, include diagrams to illuminate your solution. (a) For the positive...

A +3nC charge is placed on the negative x-axis at x= -5.0m. A -3nC charge is...

A +3nC charge is placed on the negative x-axis at x= -5.0m. A -3nC charge is placed on the positive x-axis at x= +5.0m. a) What is the magnitude of the net electric field at the origin (answer in N/C) b) What is the direction of the net electric field at the origin? c) What are the magnitude and direction of the net electric field on the y-axis at y=2.00m

Charged Spheres #1 Charged spheres are placed as follows: Name Charge (μC) x location (m) y...

Charged Spheres #1 Charged spheres are placed as follows: Name Charge (μC) x location (m) y location (m) A +7.0 0.0 0.0 B -8.0 -2.0 3.0 a. Determine the electric field (x and y components) created by charge A at the location (-2.0, 0.0). b. Determine the electric field (x and y components) created by charge B at the location (-2.0, 0.0). c. Determine the net electric field (x and y components) at the location (-2.0, 0.0). d. Determine the...

A positive point charge with a mass of 0.43 kg is placed on a string and...

A positive point charge with a mass of 0.43 kg is placed on a string and hangs vertically. Another negative point charge is placed directly beneath this charge a distance of d. Due to its weight and the electric force, the tension in the string is 22.8 Newtons. The negative charge is then moved directly to the left of the charge and the charge on the string swings to some angle and comes to equilibrium. When the charge on the...

Assume a charged object with a mass of 9.6 gram moves in the positive direction of...

Assume a charged object with a mass of 9.6 gram moves in the positive direction of the x- axis with a kinetic energy of 48 kJ. This object enters in a region of magnetic field of 1.2 mT. If the charge of this particle is +18 µC and the direction of the magnetic field is in the positive y-axis, calculate the magnitude and the direction of the magnetic force act on this object. Select one: a. 6.8x10-5 N, in the...