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)
Alright Dude, If that worked for you... dont forget to give THUMBS UP.(that will work for me!)
If I missed something feel free to leave a comment.
atleast before giving downvote.
and, Thanks for using homeworklib- Smarter way to study.
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) .
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 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 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 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) .
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
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