The cockroach Periplaneta americana can detect a static electric field of magnitude 6.50 kN/C using their...
The cockroach Periplaneta americana can detect a static electric field of magnitude 6.50 kN/C using their long antennae. If the excess static charge on a cockroach is modeled as point charges located at the end of each antenna, what magnitude of charge ? would each antenna possess in order for each antennae to experience a force of magnitude 5.00 μN from the external electric field? Calculate ? in units of nanocoulombs (nC) .
Homework Answers
F is force
q is chrge of antenna
E is static electric field
F=qE
q=F/E
= 5*10-6/6.5*103
q =0.769 nC
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The cockroach Periplaneta americana can detect a static electric
field of magnitude 6.50 kN/C using their...
The cockroach Periplaneta americana can detect a static electric field of magnitude 6.50 kN/C using their...
The cockroach Periplaneta americana can detect a static electric field of magnitude 6.50 kN/C using their long antennae. If the excess static charge on a cockroach is modeled as point charges located at the end of each antenna, what magnitude of charge ?q would each antenna possess in order for each antennae to experience a force of magnitude 2.50 μN from the external electric field? Calculate q in units of nanocoulombs (nC)
The cockroach Periplaneta americana can detect a static electric field of magnitude 7.50 kN/C using their...
The cockroach Periplaneta americana can detect a static electric field of magnitude 7.50 kN/C using their long antennae. If the excess static charge on a cockroach is modeled as point charges located at the end of each antenna, what magnitude of charge ? would each antenna possess in order for each antennae to experience a force of magnitude 2.00 μN from the external electric field? Calculate ? in units of nanocoulombs (nC) .
The cockroach Periplaneta americana can detect a static electric field of magnitude 9.50 kN/C using their...
The cockroach Periplaneta americana can detect a static electric field of magnitude 9.50 kN/C using their long antennae. If the excess static charge on a cockroach is modeled as point charges located at the end of each antenna, what magnitude of charge ?q would each antenna possess in order for each antennae to experience a force of magnitude 3.50 μN from the external electric field? Calculate q in units of nanocoulombs (nC) .
The cockroach Periplaneta americana can detect a static electric field of magnitude 7.00 kN/C7.00 kN/C using...
The cockroach Periplaneta americana can detect a static electric field of magnitude 7.00 kN/C7.00 kN/C using their long antennae. If the excess static charge on a cockroach is modeled as point charges located at the end of each antenna, what magnitude of charge ?q would each antenna possess in order for each antennae to experience a force of magnitude 7.00 μN7.00 μN from the external electric field? Calculate ?q in units of nanocoulombs (nC)(nC) .
The cockroach Periplaneta americana can detect a static electric field of magnitude 6.00 kN/C using their...
The cockroach Periplaneta americana can detect a static electric field of magnitude 6.00 kN/C using their long antennae. If the excess static charge on a cockroach is modeled as point charges located at the end of each antenna, what magnitude of charge q would each antenna possess in order for each antennae to experience a force of magnitude 4.50 ?N from the external electric field? Calculate q in units of nanocoulombs (nC) .
QUESTION 7 Find the magnitude of the electric field in kN/C for problem 22.7 using a...
QUESTION 7 Find the magnitude of the electric field in kN/C for problem 22.7 using a value of a 4.15 cm m away? 92 7 SSM ILW www In Fig. 22-35, the four particles form a square of edge length a-5.00 cm and have charges 1-+10.0 nC, 2-20.0 nC, 9sa +20.0 nC, and q410.0 nC. In vector notation, what net electric field do the particles produce at the square's center? 74 73
A penny is in an external electric field of magnitude 1.7 kN/C directed perpendicular to its...
A penny is in an external electric field of magnitude 1.7 kN/C directed perpendicular to its faces. Find the charge density on each face of the penny, assuming the faces are plane nC/m2 f the radius of the penny is 1 cm, find the total charge on one face. pC
18.49 Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction) at...
18.49 Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction) at the location of qa in the figure below, given that qb-11.50 μC and qc-4.30 HC. Point charges located at the corners of an equilateral triangle 25.0 cm on a side. ga IC Magnitude IEI direction (wrt +x-axis) Submit Answer Tries 0/10 What is the force (magnitude and direction) on qa, given that qa 1.30 nC Magnitude IFI direction (wrt +x-axis) - Submit Answer Tries...
Please help!! 18.49-Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction)...
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18.49-Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction) at the location of a in the figure below, given that b - 8.90 uC and Qc -5.90 μC. Point charges located at the corners of an equilateral triangle 24.0 cm on a side. da gc Ib Magnitude IEl direction (wrt +x-axis) Submit Answer Tries 0/10 What is the force (magnitude and direction) on qa, given that qa -1.50 nc Magnitude IFI direction (wrt...
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QUESTION 7 Find the magnitude of the electric field in kN/C for problem 22.7 using a value of a 4.15 cm m away? 92 7 SSM ILW www In Fig. 22-35, the four particles form a square of edge length a-5.00 cm and have charges 1-+10.0 nC, 2-20.0 nC, 9sa +20.0 nC, and q410.0 nC. In vector notation, what net electric field do the particles produce at the square's center? 74 73
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18.49-Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction) at the location of a in the figure below, given that b - 8.90 uC and Qc -5.90 μC. Point charges located at the corners of an equilateral triangle 24.0 cm on a side. da gc Ib Magnitude IEl direction (wrt +x-axis) Submit Answer Tries 0/10 What is the force (magnitude and direction) on qa, given that qa -1.50 nc Magnitude IFI direction (wrt...
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