Part A What is the magnitude of the force on the 1.0 nCnC charge at the bottom of the figure?  Part B What is the direction of the force on the 1.0 nCnC charge at the bottom of the figure?

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Chapter1: Units, Trigonometry. And Vectors
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Part A
What is the magnitude of the force on the 1.0 nCnC charge at the bottom of the figure? 
Part B
What is the direction of the force on the 1.0 nCnC charge at the bottom of the figure?
The image depicts an arrangement of four charged particles. 

1. At the top center, there is a particle with a charge of -6.0 nanocoulombs (nC). This charge is represented in green.

2. On either side of the negative charge, there are two positive charges, each with a magnitude of +2.0 nC. These are positioned symmetrically at an angle of 45° with respect to the central vertical line. The distance from each +2.0 nC charge to the central -6.0 nC charge is 5.0 cm. These charges are represented in red.

3. Below the central charge, along the vertical line, there is another positive charge, with a magnitude of +1.0 nC. The arrangement forms a triangle with the central -6.0 nC charge at the top vertex and the +1.0 nC charge at the bottom, aligned vertically. 

The diagram illustrates the geometric arrangement of the charges and their respective distances, useful for problems involving electrostatic forces and fields.
Transcribed Image Text:The image depicts an arrangement of four charged particles. 1. At the top center, there is a particle with a charge of -6.0 nanocoulombs (nC). This charge is represented in green. 2. On either side of the negative charge, there are two positive charges, each with a magnitude of +2.0 nC. These are positioned symmetrically at an angle of 45° with respect to the central vertical line. The distance from each +2.0 nC charge to the central -6.0 nC charge is 5.0 cm. These charges are represented in red. 3. Below the central charge, along the vertical line, there is another positive charge, with a magnitude of +1.0 nC. The arrangement forms a triangle with the central -6.0 nC charge at the top vertex and the +1.0 nC charge at the bottom, aligned vertically. The diagram illustrates the geometric arrangement of the charges and their respective distances, useful for problems involving electrostatic forces and fields.
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