Certain fish, such as the Nile fish (Gnathonemus), concentrate charges in their head and tail, thereby...
Certain fish, such as the Nile fish (Gnathonemus), concentrate charges in their head and tail, thereby producing an electric field in the water around them. This field creates a potential difference of a few volts between the head and tail, which in turn causes current to flow in the conducting seawater. As the fish swims, it passes near objects that have resistivities different from that of seawater, which in turn causes the current to vary. Cells in the skin of the fish are sensitive to this current and can detect changes in it. The changes in the current allow the fish to navigate.Since the electric field is weak far from the fish, we shall consider only the field running directly from the head to the tail. We can model the seawater through which that field passes as a conducting tube of area and having a potential difference across its ends. These fish navigate by responding to changes in the current in seawater. This current is due to a potential difference of around 3.00 generated by the fish and is about 12.0 within a centimeter or so from the fish. Receptor cells in the fish are sensitive to the current. Since the current is at some distance from the fish, their sensitivity suggests that these cells might be responding to the magnetic field created by the current. To get some estimate of how sensitive the cells are, we can model the current as that of a long, straight wire with the receptor cells 2.00 away.
What is the strength of the magnetic field at the receptor cells?
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Certain fish, such as the Nile fish (Gnathonemus), concentrate
charges in their head and tail, thereby...
Certain fish, such as the Nile fish (Gnathonemus), concentrate charges in their head and tail, thereby...
Certain fish, such as the Nile fish (Gnathonemus), concentrate charges in their head and tail, thereby producing an electric field in the water around them. This field creates a potential difference of a few volts between the head and tail, which in turn causes current to flow in the conducting seawater. As the fish swims, it passes near objects that have resistivities different from that of seawater, which in turn causes the current to vary. Cells in the skin of...
The 9-inch-long elephant nose fish in the Congo River generates a weak electric field around its...
The 9-inch-long elephant nose fish in the Congo River generates a weak electric field around its body using an organ in its tail. When small prey (or even potential mates) swim within a few feet of the fish, they perturb the electric field. The change in the field is picked up by electric sensor cells in the skin of the elephant nose. These remarkable fish can detect changes in the electric field as small as 3.00 μN/C. How much charge...
The 9 inch long elephant nose fish in the Congo River generates a weak electric field around its body using an organ in...
The 9 inch long elephant nose fish in the Congo River generates a weak electric field around its body using an organ in its tail. When small prey (or even potential mates) swim within a few feet of the fish, they perturb the electric field. The change in the field is picked up by electric sensor cells in the skin of the elephant nose. These remarkable fish can detect changes in the electric field as small as 3.0 ?N/C. How...
An infinitely long cylinderical capacitor initially has a linear charge density of + 5.60 nC/m (nanocoloumbs...
An infinitely long cylinderical capacitor initially has a linear charge density of + 5.60 nC/m (nanocoloumbs per meter) on the inner conducting cylinder and -5.60 nC/m on the outer conducting cylinder. The radius of the inner conducting cylinder is a = 0.060 m and the radius of the outer conducting shell is b = 0.160 m. See the figure of a small piece of the capacitor below: Part A Find the magnitude of the electric field 0.019 m from the...
please answer d & e with full explanations, thanks! 1. This problem investigates the use of...
please answer d & e with full explanations, thanks!
1. This problem investigates the use of the Hall effect to study blood flow. When a current / travels along a conducting plate of width w, which lies perpendicular to a magnetic field B, a potential difference V develops across the plate as shown in the figure below. + + + + + + a. Show the direction of the electric field on the diagram. (Either copy the diagram from this...
can you please show me how to do each of these thank you! The magnetic field...
can you please show me how to do each of these thank
you!
The magnetic field in the region between the poles of an electromagnet is uniform at any time, butis a point) increasing at the rate of 0.020 T/s. The area of the conducting loop in the field is 180 cm?. What is the magnitude of the induced emf? 0.12 mV 0.90 ml 0.11 mV 0:0.36 mV A rectangular loop with area A rotates with constant angular velocity o...
Question 1. (a) Write down the differential form of Maxwell's equations in matter for the dynamic...
Question 1. (a) Write down the differential form of Maxwell's equations in matter for the dynamic case (where the electric and magnetic field can change with time), in the presence of free charges and currents. Describe all physical quantities and constants used. [10] (6) (b) Write down the integral form of Ampere's law in vacuum for the static (non time- dependent) case. Using Stokes' theorem, derive the differential form of Ampere's law. [4] (c) Two charges 91= 5 uC and...
27B -- Experiment: Magnetic Force on a Moving Charge - qolme Objective: In this module you...
27B -- Experiment: Magnetic Force on a Moving Charge - qolme Objective: In this module you will observe the trajectory of an electron beam in a uniform magnetic field oriented in various ways to the electron velocity. You will then use your observation of the radius of the electron trajectory to measure the charge to mass ratio for an electron. Equipment: One elm apparatus (Lurge mounted glass bulb with Helmholtz coils); one Leybold or PASCO power supply for electron gun...
Physics 1410 Lab 6 DC 2019, need help with lab questions Chapter 6 DC Electricity n...
Physics 1410 Lab 6 DC 2019, need help with lab questions
Chapter 6 DC Electricity n this laboratory session we shall examine the relationships among the motion of electrons (current), the effect which causes them to move (voltage, i.e. potential difference), and the frictional effects which hinder their motion (resistance). Since we cannot use any of our senses to detect the presence of electrical effects we need one or more detectors to tell us that a current or potential difference...
An infinitely long cylinderical capacitor initially has a linear charge density of + 5.60 nC/m (nanocoloumbs per meter) on the inner conducting cylinder and -5.60 nC/m on the outer conducting cylinder. The radius of the inner conducting cylinder is a = 0.060 m and the radius of the outer conducting shell is b = 0.160 m. See the figure of a small piece of the capacitor below: Part A Find the magnitude of the electric field 0.019 m from the...
please answer d & e with full explanations, thanks!
1. This problem investigates the use of the Hall effect to study blood flow. When a current / travels along a conducting plate of width w, which lies perpendicular to a magnetic field B, a potential difference V develops across the plate as shown in the figure below. + + + + + + a. Show the direction of the electric field on the diagram. (Either copy the diagram from this...
can you please show me how to do each of these thank
you!
The magnetic field in the region between the poles of an electromagnet is uniform at any time, butis a point) increasing at the rate of 0.020 T/s. The area of the conducting loop in the field is 180 cm?. What is the magnitude of the induced emf? 0.12 mV 0.90 ml 0.11 mV 0:0.36 mV A rectangular loop with area A rotates with constant angular velocity o...
Question 1. (a) Write down the differential form of Maxwell's equations in matter for the dynamic case (where the electric and magnetic field can change with time), in the presence of free charges and currents. Describe all physical quantities and constants used. [10] (6) (b) Write down the integral form of Ampere's law in vacuum for the static (non time- dependent) case. Using Stokes' theorem, derive the differential form of Ampere's law. [4] (c) Two charges 91= 5 uC and...
27B -- Experiment: Magnetic Force on a Moving Charge - qolme Objective: In this module you will observe the trajectory of an electron beam in a uniform magnetic field oriented in various ways to the electron velocity. You will then use your observation of the radius of the electron trajectory to measure the charge to mass ratio for an electron. Equipment: One elm apparatus (Lurge mounted glass bulb with Helmholtz coils); one Leybold or PASCO power supply for electron gun...
Physics 1410 Lab 6 DC 2019, need help with lab questions
Chapter 6 DC Electricity n this laboratory session we shall examine the relationships among the motion of electrons (current), the effect which causes them to move (voltage, i.e. potential difference), and the frictional effects which hinder their motion (resistance). Since we cannot use any of our senses to detect the presence of electrical effects we need one or more detectors to tell us that a current or potential difference...
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