Homework Answers
+q +q +q 2r +Q +30 +20 +O Number 1 Number 2 Number 3 9. What...
+q +q +q 2r +Q +30 +20 +O Number 1 Number 2 Number 3 9. What is true about the electric potential energy of arrangements 1 and 2? The electric potential energy of number 1 is greater than number 2 The electric potential energy of number 1 is smaller than number 2 The electric potential energy is the same in number 1 and 2, and it is positive The electric potential energy is the same in number 1 and 2,...
Questions 6 and 7 are based on the following arrangement of charges: 8 + 6. Rank...
Questions 6 and 7 are based on the following arrangement of charges: 8 + 6. Rank the electric potential energy that each one of the arrangements have, from more positive to more negative. a. U.(A)>U (B) >U,(C)>U,(D) b. U (4)<U.(B)<U,(C)<U,(D) c. U.(A) >U,(B)-U.C)>U,(D) d. U.(A)=U (D) > U.(C)=U (B) 7. Rank the electric potential at the center of every triangle, from more positive to more negative. a. V(4) > V(B) > V(C) (D) b. P(1) V(B) V(C) <V(D) c. (A)...
In the diagram below, there are two charges of +q and -q and six points (a through f) at various distances from the two charges
In the diagram below, there are two charges of +q and -q and six points (a through f) at various distances from the two charges. Youwill be asked to rank changes in the electric potential along paths between pairs of points.Using the diagram, rank each of the given paths on the basis of the change in electric potential. Rank the largest-magnitude positive change (increase in electricpotential) as largest and the largest-magnitude negative change (decrease in electric potential) as smallest.Rank from largest to...
A positive charge Q, located at the origin, produces an electric potential V = kQ/r at...
A positive charge Q, located at the origin, produces an electric potential V = kQ/r at point r. A point charge q is moved from 4r to r. The increase in its electric potential energy is Question 19 options: a) 2kQq/(3r). b) kQq/(2r). c) kQq/(4r). d) kQq/(3r). e) kQq/r. f) 3kQq/(4r).
A positive charge Q, located at the origin, produces an electric potential V = kQ/r at...
A positive charge Q, located at the origin, produces an electric potential V = kQ/r at point r. A point charge q is moved from 4r to r. The increase in its electric potential energy is Question 19 options: a) 2kQq/(3r). b) kQq/(2r). c) kQq/(4r). d) kQq/(3r). e) kQq/r. f) 3kQq/(4r).
Consider a positive source charge Q, that is being held in place. A nearby negative test...
Consider a positive source charge Q, that is being held in
place. A nearby negative test charge q moves from point A to point
B.
a) What is the direction of the electric force that the source
charge exerts on the test charge?
b) As the negative test charge moves from point A to point B,
does the electric force cause it to speed up, slow down, or move at
a constant velocity?
c) As the negative test charge moves...
Form 2: Page 6 A point charge Q is placed at the origin at r=0. What...
Form 2: Page 6 A point charge Q is placed at the origin at r=0. What is the electric potential V at a distancer from this point charge? a. kQ/r2 b. kQ²/1 c.-k / d. -kQ/ kor An electric field in one dimension varies as E(x)=CX The potential is zero at x = 0 What is the potential V(x)? a-CX2/2 b. 2CX-32/3 c. -2CX32/3 d. -2CX 2 Cx12/3 18. The electric field vector between two charges of - and in...
3) If the Capacitance of an object is C so if it is charged by moving...
3) If the Capacitance of an object is C so if it is charged by moving charge q from the negative to positive terminal the voltage is Remember voltage is ElectricalPotential(Volts) = Energy(Joules) charge(Coulombs) a. Calculate the energy required if a capacitor of capacitance C is charged up to a total charge Q, remembering that the voltage changes as we are adding charge. b. Consider a parallel plate capacitor of large area A and small plate separation t. Assume the...
PRINCIPLE OF BIOMECHANICS QUESTION 5 With reference to the electric field surrounding the point charge +Q...
PRINCIPLE OF BIOMECHANICS QUESTION 5 With reference to the electric field surrounding the point charge +Q as shown in the image below, which points are the same potential? Select one: a. A, B and C b. C and D c. D and E d. B and C (1What is the electric field at point A, at distance r = 2m from charge Q. = -2nc, and distance r = 1m from charge Q. = -2nC, as shown? Assume that the...
All charges shown have the size, Q, with two positive charges on the left and one...
All charges shown have the size, Q, with two positive charges on the left and one negative charge on the right. All charges are equidistant. If a negative charge, -q, is placed at one of the points A, B, C or D (as shown below) then the potential energy, U, at the negative charge can be determined. Sort the potential energy at each location, high to low. Highest Potential Energy +Q Lowest Potential Energy UA UB UC UD
+q +q +q 2r +Q +30 +20 +O Number 1 Number 2 Number 3 9. What is true about the electric potential energy of arrangements 1 and 2? The electric potential energy of number 1 is greater than number 2 The electric potential energy of number 1 is smaller than number 2 The electric potential energy is the same in number 1 and 2, and it is positive The electric potential energy is the same in number 1 and 2,...
Questions 6 and 7 are based on the following arrangement of charges: 8 + 6. Rank the electric potential energy that each one of the arrangements have, from more positive to more negative. a. U.(A)>U (B) >U,(C)>U,(D) b. U (4)<U.(B)<U,(C)<U,(D) c. U.(A) >U,(B)-U.C)>U,(D) d. U.(A)=U (D) > U.(C)=U (B) 7. Rank the electric potential at the center of every triangle, from more positive to more negative. a. V(4) > V(B) > V(C) (D) b. P(1) V(B) V(C) <V(D) c. (A)...
Consider a positive source charge Q, that is being held in
place. A nearby negative test charge q moves from point A to point
B.
a) What is the direction of the electric force that the source
charge exerts on the test charge?
b) As the negative test charge moves from point A to point B,
does the electric force cause it to speed up, slow down, or move at
a constant velocity?
c) As the negative test charge moves...
Form 2: Page 6 A point charge Q is placed at the origin at r=0. What is the electric potential V at a distancer from this point charge? a. kQ/r2 b. kQ²/1 c.-k / d. -kQ/ kor An electric field in one dimension varies as E(x)=CX The potential is zero at x = 0 What is the potential V(x)? a-CX2/2 b. 2CX-32/3 c. -2CX32/3 d. -2CX 2 Cx12/3 18. The electric field vector between two charges of - and in...
3) If the Capacitance of an object is C so if it is charged by moving charge q from the negative to positive terminal the voltage is Remember voltage is ElectricalPotential(Volts) = Energy(Joules) charge(Coulombs) a. Calculate the energy required if a capacitor of capacitance C is charged up to a total charge Q, remembering that the voltage changes as we are adding charge. b. Consider a parallel plate capacitor of large area A and small plate separation t. Assume the...
PRINCIPLE OF BIOMECHANICS QUESTION 5 With reference to the electric field surrounding the point charge +Q as shown in the image below, which points are the same potential? Select one: a. A, B and C b. C and D c. D and E d. B and C (1What is the electric field at point A, at distance r = 2m from charge Q. = -2nc, and distance r = 1m from charge Q. = -2nC, as shown? Assume that the...
All charges shown have the size, Q, with two positive charges on the left and one negative charge on the right. All charges are equidistant. If a negative charge, -q, is placed at one of the points A, B, C or D (as shown below) then the potential energy, U, at the negative charge can be determined. Sort the potential energy at each location, high to low. Highest Potential Energy +Q Lowest Potential Energy UA UB UC UD
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