The two point charges, Q = -24.5 nC, and q = -71.3 nC, are located a distance, d = 8.3 mm apart, with charge q oriented at an angle, 33°, above the horizontal as shown in the figure. Use the standard unit vectors (1,ĵ) indicated in the diagram. 1. Force on Charge q (a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted ON q by Q. Fq= F₁ = Submit (b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form. FQ= Nat FQ = IN)₁+( 2. Force on Charge Q (a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted on Q by q Submit from the +x axis. Nat N) ₁ ° from the +x axis. (b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form. 9 (¯N) î+ (¯N)Ĵ
The two point charges, Q = -24.5 nC, and q = -71.3 nC, are located a distance, d = 8.3 mm apart, with charge q oriented at an angle, 33°, above the horizontal as shown in the figure. Use the standard unit vectors (1,ĵ) indicated in the diagram. 1. Force on Charge q (a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted ON q by Q. Fq= F₁ = Submit (b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form. FQ= Nat FQ = IN)₁+( 2. Force on Charge Q (a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted on Q by q Submit from the +x axis. Nat N) ₁ ° from the +x axis. (b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form. 9 (¯N) î+ (¯N)Ĵ
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![The two point charges, Q = -24.5 nC, and q = -71.3 nC, are
located a distance, d = 8.3 mm apart, with charge q oriented at
an angle, 0 = 33°, above the horizontal as shown in the figure.
Use the standard unit vectors (î, ĵ) indicated in the diagram.
1. Force on Charge q
(a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted ON q by Q.
Fq=
F₁ =
Submit
(b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form.
FQ=
Nat
FQ=
N) ₁+ ([
Submit
2. Force on Charge Q
(a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted on Q by q
from the +x axis.
Nat
(N) ₁
]N) ₁ + ( [
Ө
° from the +x axis.
(b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form.
9
N) ₁
î](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7770660f-0b8b-434e-a7dd-75ed5e2767f0%2F03cd28a1-aa20-4b08-a418-c727084aad0b%2Fpwkdij_processed.png&w=3840&q=75)
Transcribed Image Text:The two point charges, Q = -24.5 nC, and q = -71.3 nC, are
located a distance, d = 8.3 mm apart, with charge q oriented at
an angle, 0 = 33°, above the horizontal as shown in the figure.
Use the standard unit vectors (î, ĵ) indicated in the diagram.
1. Force on Charge q
(a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted ON q by Q.
Fq=
F₁ =
Submit
(b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form.
FQ=
Nat
FQ=
N) ₁+ ([
Submit
2. Force on Charge Q
(a) Calculate the magnitude and direction (i.e. angle) of the electric force exerted on Q by q
from the +x axis.
Nat
(N) ₁
]N) ₁ + ( [
Ө
° from the +x axis.
(b) Find the horizontal and vertical components of the electric force on q, then write it in unit vector form.
9
N) ₁
î
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