a. Explain in detail how varying the velocity of the charged particle affects its motion in a constant electric field. b. Explain in detail how varying the charge affects the motion in a constant electric field. c. Explain in detail how varying the mass of the particle affects the motion in a constant electric field. Please help explain in words.
a. Explain in detail how varying the velocity of the charged particle affects its motion in a constant electric field. b. Explain in detail how varying the charge affects the motion in a constant electric field. c. Explain in detail how varying the mass of the particle affects the motion in a constant electric field. Please help explain in words.
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a. Explain in detail how varying the velocity of the charged particle affects its motion in a constant electric field.
b. Explain in detail how varying the charge affects the motion in a constant electric field.
c. Explain in detail how varying the mass of the particle affects the motion in a constant electric field.
Please help explain in words.

Transcribed Image Text:Exercise 1: Effects of a Constant Electric Field on Charged Particles
(Use the Charged Particle in an Electric Field Simulation for Exercise 1)
Measure distance traveled in at least 0.1 cm precision values from the starting edge of
the electrode plate
TABLE 1: Variable Velocity:
Constant charge of particle = 5 µC Constant mass =
5 x1016 kg Constant Electric Field = 1000 N/C Plate separation = 5 cm
Initial velocity (105 m/s)
Distance traveled in Electric Field (cm)
2.0
1.4
5.0
3.5
10.0
6.9
TABLE 2: Variable Charge:
Constant initial velocity = 5 x 105 m/s Constant
Plate separation = 5 cm
mass = 5 x10-16 kg
Constant Electric Field = 1000 N/C
Charge of Particle (µC)
Distance traveled in Electric Field (cm)
-10.0
2.45
-5.0
3.5
-1.0
7.9
0.0
10
+1.0
7.9
+5.0
3.5
+10.0
2.5
Constant charge of particle = 5 µC Constant initial
Constant Electric Field = 1000 N/C Plate separation = 5 cm
TABLE 3: Variable Mass:
velocity
= 5 x 105 m/s
Particle Mass (10-16 kg)
Distance traveled in Electric Field (cm)
1.0
1.55
3.0
2.8
5.0
3.5
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