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credit for work. pls explain detail
3. 100 charges (each of charge Q) are lined up...
Credit for work. pls explain detail 2. A long hollow cylinder made of copper carries a...
Credit for work. pls explain detail
2. A long hollow cylinder made of copper carries a current I. The inner radius is "a" (the radius of the hole down the middle). The outer radius is "b". Assume the current is spread evenly throughout the bulk of the cylinder. What is the B-field magnitude at any radius "r" from the center? (You'll need 3 answers: r<a, a<r<b, and b<r.)
Two curved plastic rods, one of charge +q and the other of charge -q, form a...
Two curved plastic rods, one of charge +q and the other of charge -q, form a circle of radius R in the plane. The horizontal and vertical axes are shown, and the join between the two rods is on the vertical axis. 5. a. Draw a representative sample of electric field lines (with directions) inside and outside the circle. It should look reasonably accurate. Total charge on left half: +q Total charge on right half: q b. If charge is...
1. Two point charges, q, and q are fixed in position. a is located at (0, d). qg is located at (0...
1. Two point charges, q, and q are fixed in position. a is located at (0, d). qg is located at (0,-d). The value of q, is known, and it is positive. The value of q, is unknown. The value of d is known, and it is positive. Also fixed in position is a uniformly charged line segment of length d. This segment is parallel to the x-axis and its left end is located at (d/2.-d). The total electric field...
For starters, calculate the magnitude and direction of the electric field due only to charge q1...
For starters, calculate the
magnitude and direction of the electric field due only to
charge q1 at this point.
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Incompatible units. No conversion found between "N" and the
required units.
Tries 0/10
Previous Tries
Calculate the magnitude and direction of the electric field
due only to charge q2 at this
point.
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Tries 0/10
Calculate the magnitude and direction of the electric field
due only to charge q3 at this
point.
Down
Up...
Next we move the +Q and +4Q charges to be 3 times as far apart as...
Next we move the +Q and +4Q charges to be 3 times as far apart as they were: +Q 5. Now what is the magnitude of the force on the +40? (b) F/3 (a) F/9 (c) 4F/9 (d) 4F/3 (e) other 6. Which of the arrows is in the direction of the net force on charge B? -1 +1 +1 (e) none of these The picture below shows a centimeters to the left is another particle (labeled A) which has...
Three charges, q1 = +2.60nC,q2 = -1.48nC, and q3 =+8.89nC, are at the corners...
Three charges, q1 = +2.60nC,q2 = -1.48nC, and q3 = +8.89nC, are at the corners of an equilateral triangle, each of whose sides are of length, L, as shown in the figure below.The angle α is 60.0° and L = 0.407 m. We are interested in the unmarked point midway between the chargesq1 and q2 on the xaxis.For starters, calculate the magnitude and direction of the electric field due only to charge q1 at this point.DownUpLeftRightIncorrect.Tries 4/10Previous TriesCalculate the magnitude...
Constants Part A A point charge q.--4.00 nC is at the point z. 0.60 m, 3-0801...
Constants Part A A point charge q.--4.00 nC is at the point z. 0.60 m, 3-0801 m,and a second point charge q2 = +6.00 nC is at the point. 0.60 m,y0 Calculate the magnitude of the net electric field at the origin due to these two point charges N/C Submit ▼ Part B Calculate the direction of the net electric field at the origin due to these two point charges. 四? counterclockwise from +-axis Submit
PRACTICE: Three point charges, each of magnitude q, are placed at 3 corners of a square...
PRACTICE: Three point charges, each of magnitude q, are placed at 3 corners of a square with sides of length L as shown. How much work is required to bring a test charge Q from very far away to A along the indicated path direction? L А B path 1. W = k 9Q (-1) L 99 2. W = 2 L 90 3. W=k- V2L
Three charges, q1 = +2.61nC, q2 =-1.41nC, and q3 = +9.41nC, are at the corners of...
Three charges, q1 = +2.61nC, q2 =-1.41nC, and q3 = +9.41nC, are at the corners of an equilateral triangle, each of whose sides are of length, L, as shown in the figure below. 92 The angle a is 60.0° and L- 0.429 m. We are interested in the unmarked point midway between the charges q1 and q2 on the x axis. For starters, calculate the magnitude and direction of the electric field due only to charge q1 at this point....
Stuck on both problems A parallel plate capacitor is made up of two plates, each a...
Stuck on both problems
A parallel plate capacitor is made up of two plates, each a squarer that is 1.0 mm on each side, each having charge of magnitude 1.57 mu C, and separated by a distance of 5.0 mu m. Draw in the electric field between the capacitors. What is the magnitude of the field? If an electron is placed inside the field, what is the magnitude and direction of its acceleration? (Ignore gravity.) The rod shown below has...
Credit for work. pls explain detail
2. A long hollow cylinder made of copper carries a current I. The inner radius is "a" (the radius of the hole down the middle). The outer radius is "b". Assume the current is spread evenly throughout the bulk of the cylinder. What is the B-field magnitude at any radius "r" from the center? (You'll need 3 answers: r<a, a<r<b, and b<r.)
Two curved plastic rods, one of charge +q and the other of charge -q, form a circle of radius R in the plane. The horizontal and vertical axes are shown, and the join between the two rods is on the vertical axis. 5. a. Draw a representative sample of electric field lines (with directions) inside and outside the circle. It should look reasonably accurate. Total charge on left half: +q Total charge on right half: q b. If charge is...
1. Two point charges, q, and q are fixed in position. a is located at (0, d). qg is located at (0,-d). The value of q, is known, and it is positive. The value of q, is unknown. The value of d is known, and it is positive. Also fixed in position is a uniformly charged line segment of length d. This segment is parallel to the x-axis and its left end is located at (d/2.-d). The total electric field...
For starters, calculate the
magnitude and direction of the electric field due only to
charge q1 at this point.
Down
Up
Left
Right
Incompatible units. No conversion found between "N" and the
required units.
Tries 0/10
Previous Tries
Calculate the magnitude and direction of the electric field
due only to charge q2 at this
point.
Down
Up
Left
Right
Tries 0/10
Calculate the magnitude and direction of the electric field
due only to charge q3 at this
point.
Down
Up...
Next we move the +Q and +4Q charges to be 3 times as far apart as they were: +Q 5. Now what is the magnitude of the force on the +40? (b) F/3 (a) F/9 (c) 4F/9 (d) 4F/3 (e) other 6. Which of the arrows is in the direction of the net force on charge B? -1 +1 +1 (e) none of these The picture below shows a centimeters to the left is another particle (labeled A) which has...
Constants Part A A point charge q.--4.00 nC is at the point z. 0.60 m, 3-0801 m,and a second point charge q2 = +6.00 nC is at the point. 0.60 m,y0 Calculate the magnitude of the net electric field at the origin due to these two point charges N/C Submit ▼ Part B Calculate the direction of the net electric field at the origin due to these two point charges. 四? counterclockwise from +-axis Submit
PRACTICE: Three point charges, each of magnitude q, are placed at 3 corners of a square with sides of length L as shown. How much work is required to bring a test charge Q from very far away to A along the indicated path direction? L А B path 1. W = k 9Q (-1) L 99 2. W = 2 L 90 3. W=k- V2L
Three charges, q1 = +2.61nC, q2 =-1.41nC, and q3 = +9.41nC, are at the corners of an equilateral triangle, each of whose sides are of length, L, as shown in the figure below. 92 The angle a is 60.0° and L- 0.429 m. We are interested in the unmarked point midway between the charges q1 and q2 on the x axis. For starters, calculate the magnitude and direction of the electric field due only to charge q1 at this point....
Stuck on both problems
A parallel plate capacitor is made up of two plates, each a squarer that is 1.0 mm on each side, each having charge of magnitude 1.57 mu C, and separated by a distance of 5.0 mu m. Draw in the electric field between the capacitors. What is the magnitude of the field? If an electron is placed inside the field, what is the magnitude and direction of its acceleration? (Ignore gravity.) The rod shown below has...
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