0
What else can I help you with?
Force experienced by an electric field E is F N What will be the force on a proton in the same field. Take mass of the proton to be 1836 times mass of an electron?
The force experienced by a proton in an electric field will be the same as for any other charged particle with the same charge, because the force depends on the charge of the particle and the electric field strength. The charge of a proton is the same as the charge of an electron, just opposite in sign. The mass of the proton being 1836 times greater than the mass of an electron will not affect the force experienced by the proton in the electric field.
What is the magnitude of the electric field due to a proton at a distance r 0.5 nm?
The magnitude of the electric field due to a proton at a distance of 0.5 nm can be calculated using the equation: E = kq/r^2, where k is the electrostatic constant, q is the charge of the proton, and r is the distance. Plugging in the values for k (8.99 x 10^9 Nm^2/C^2), the charge of a proton (1.6 x 10^-19 C), and the distance (0.5 nm or 5 x 10^-10 m), we can find the magnitude of the electric field.
What subatomic particles have an electric field around it?
All subatomic particles with electric charge, such as electrons, protons, and neutrons, have an electric field around them. This electric field is a result of the particle's charge and extends outward from the particle in all directions.
A proton is in an electric field and has an electric potential energy of 0.5 J What is the electric potential voltage that it experiences?
First off you know that when it says "Proton" you should know that its a Positive (+) Charged subatomic particle! Now You use the equation that says --> Volt = Electric Potential Energy / Q Volt = 0.5 / +1 (proton) Volt = 0.5
How can a proton be moved from one location to another?
A proton can be moved from one location to another by applying an electric or magnetic field that exerts a force on the proton. This force can be used to accelerate the proton, causing it to move to a different location. Additionally, protons can be transported using equipment such as proton pumps or ion channels in biological systems.
What effect does electric field have on a proton?
An electric field will exert a force on a proton due to its positive charge. The proton will experience a force in the direction of the electric field if the field is uniform, causing it to accelerate in that direction.
What type of fields surround every proton?
A proton is surrounded by an electric field, which interacts with other charged particles. It also interacts with a magnetic field under certain conditions, such as when it moves through a magnetic field.
What is the magnitude of the electric field due to a proton at a distance r NM?
The magnitude of the electric field is 2.5.
What is the strength of an electric field required to balance the weight of a proton?
The strength of an electric field required to balance the weight of a proton is approximately 9.8 x 1020 N/C.
Force experienced by an electric field E is F N What will be the force on a proton in the same field. Take mass of the proton to be 1836 times mass of an electron?
The force experienced by a proton in an electric field will be the same as for any other charged particle with the same charge, because the force depends on the charge of the particle and the electric field strength. The charge of a proton is the same as the charge of an electron, just opposite in sign. The mass of the proton being 1836 times greater than the mass of an electron will not affect the force experienced by the proton in the electric field.
An electric field is directed from left to right A proton is placed within the field What does the proton feel as a result of the field and why?
The 'direction' of the electrostatic (E) field is defined as the direction of the force on a positive charge in the field. The proton carries a positive charge, so when immersed in the E field directed from left to right, there is a force on the proton directed toward the right, and if you let go of the proton, it will go shooting off to the right.
Does an electron accelerate greater than a proton in an electric field?
yes, it has less mass.
How would a proton's motion differ from the motion of an electron placed at the same point in the same electric field?
First of all, the forces they experience would be in exactly the opposite directions. Secondly, because the mass of the proton is greater, it would have a lower acceleration than the electron.
What happens if a free electron and a free proton are put into an electric field?
The proton will have greater acceleration. This is because the proton has a higher charge to mass ratio than the alpha particle. The proton has a +1 charge, as you know, and the alpha particle has a +2 charge because it has 2 protons in it. But the alpha particle also has a pair of neutrons fuesed to those 2 protons, so it has a 2 to 4 charge to mass ratio. The proton, with its 1 to 1 ratio of charge to mass, will have a greater acceleration in the same electric field.
What is the magnitude of the electric field due to a proton at a distance r 0.5 nm?
The magnitude of the electric field due to a proton at a distance of 0.5 nm can be calculated using the equation: E = kq/r^2, where k is the electrostatic constant, q is the charge of the proton, and r is the distance. Plugging in the values for k (8.99 x 10^9 Nm^2/C^2), the charge of a proton (1.6 x 10^-19 C), and the distance (0.5 nm or 5 x 10^-10 m), we can find the magnitude of the electric field.
What subatomic particles have an electric field around it?
All subatomic particles with electric charge, such as electrons, protons, and neutrons, have an electric field around them. This electric field is a result of the particle's charge and extends outward from the particle in all directions.
Are electric fields exerted by protons?
Yes. The proton field is E = d/dr ezc/2r = -ezc/2r2 .
