The region around a charged object in which another charged object experiences an electric force is a?
An electric field.
The region around a charged object in which an electric force is exerted on another charged objects is an?
The region around a charged object in which an electric force is exerted on another charged object is an electromagnetic field.
The region around a charged particle that can exert a force on another charged particle is called the?
The electric field, E.
The electric field is the area around an electric charge that is strongest closest to the charged particle.
yes the space around a electrically charged object is known as electric field......
The electric field pattern is radial.
ELECTRIC FIELD The electric of a charge is the region of space surrounding in which a point charge can experience its influence in the form of a force The regon around any charged body in which coloumb's force is experienced by some other charged body is called "electric field" of the first body.
Always point inwards
An electric field is a region around a charged particle within which a force would be exerted on other charged particles. Presumably, therefore, the field is a measure of the volume of space in which the presence of the electric charge can be felt and so is measured in cubic centimetres, cubic metres or related units.
An electromagnetic field! italyloveschicago on youtube rocks by the way!
Both. The electric field is a Quaternion field, a scalar e and a vector E, E = [e,E]Maxwell's Equation. 0=XE= [d/dr, Del][e,E] = [de/dr -Del.E, dE/dr + Del e] = [db/dt - Del.E, dB/dt + Del e]
Yes. The nucleus contains only protons, which are positively charged, and usually also has neutrons, which have no electric charge. Therefore, the nucleus is always positively charged, and the corresponding negative charge is contained in the electrons around the nucleus.
Each atom has a charged center (nuclei) with the positive electric charge and electron(s) rotates around this center with the negative electric charge.
If we place a charged body to a position it feel a force which depends the presence of other charged body around it. Now we can say something was there in that position before placing that charged body. Here arise a concept of electric field.Electric field is defined as the electric force per unit charge. The direction of the field is taken to be the direction of the force it would exert on a positive… Read More
The concept of the electric field was introduced by the scientist Faraday in the 1800s. Michael Faraday was the inventor for envisioning the scientific concept that electricity created a field of charged energy particles around electric objects.
the basic difference is the origin point. the magnetic field originates due to magnetic dipole and the electric field originates due to the charged particles. An electric field surrounds electrically charged particles and time-varying magnetic fields. It can be said Electric fields are generated around particles that bear electric charge or where magnetic field is changing with time Magnetic fields are produced by electric currents, which can be macroscopic currents in wires, or microscopic currents… Read More
Atoms in matter always contain electric charges. You cannot create or destroy electric charges, but you can move them around. ØThere are two types of electric charge - positive and negative. ØWhen chargers are forced to move from their normal positions, say by being rubbed together, we say they become 'charged' with 'electricity'. ØSince these charges remain stationary (in one spot) on the surface of the charged object, it is called static electricity.
No , a static charge will always appear to be concentrated around the edge of the object....
Please note that electrical current, which is the flow of electrons, is what flows, not "electricity", which is the entire body of phenomenon around current, voltage, impedance, power, etc. Electric current is a flow of electrically charged atomic particles known as electrons. In metallic wires, the electric charge in a current is carried by electrons that orbit the nuclei of atoms. Each electron carries a small negative electric charge. When a stream of electrons moves… Read More
What is the electric field half way to the centre of a conducting sphere charged to a potential of 15v?
electric field inside the conducting sphere is ZER0..! because their are equivalent charges all around the sphere which makes the net force zero hence we can say that the electric field is also zero.!
Electrons or other charged particles are moved around; no new charges are created.
An electric field is an integral part of any charged particle. We probably need to talk about charged particles and then expand on that to get a handle on an electric field. And why not start with those basic building blocks of atoms, the proton and electron? Hopefully the neutrons won't mind if we skip them for this. We know that protons and electrons carry a positive and negative charge, respectively. The charge is an… Read More
A magnetic field is induced by moving electric charges, either by an actual electric current, or the way that electrons (charged particles) spin around the nucleus [in the case of magnetic materials becoming magnetized].
A dynamo generator and an electric motor are similar in construction, but work in opposite ways to one another, and have reciprocal purposes. Both contain a central shaft with affixed magnet(s) surrounded by a series of wound coils enclosed by an outer casing having two electrical leads, one live and one neutral. In a dynamo, an outside mechanical force such as the rotation of a cyclist's wheel spins the central shaft and magnets around. The… Read More
Scientists believe it is the outer core, the inner core is solid. Electricity moving through wires cause magnetic fields. Charged particles stuck in the liquid core moving around mimic charged electrons in an electric current.
The force around a another charge whether it is attracting or repulsive due to the another point charge is known as electric field
Compare: - Electricity and magnetism are both described mathematically as vector fields. - The force attributed to both, the Lorentz force, only affects charged particles. - A moving electric field is equivalent to a magnetic field. Contrast: - Magnetic field lines "loop" around their poles, electric field lines start at a point charge and continue on indefinitely. - All materials feel a magnetic field through the effect of diamagnetism. Only charged particles feel an electric… Read More
Yes it has a positive charge. A nucleus is made up of protons that have a positive charge and neutrons which have no charge so are are neutral. So, overall, the nucleus is the positively charged part of an atom and its positive charge is neutralized by the negatively charged electrons which revolve around the nucleus.
get it replaced the part cost around $35.00 but to install it is another question.
The nucleus of an atom is made up of neutrons and protons. Neutrons are neutral and protons have a positive charge so the nucleus is positively charged. Around the nucleus there are orbiting electrons which are negatively charged. The positive nucleus and the negative electrons make the overall charge of the atom neutral
What happens to the electric field around a single charge when another chrage is added to the system?
The shape of the electric field is altered. The fields will react by either repelling or attracting each other.
An element subpart called the electron, that drift around the nucleus on valence shells and are negatively charged.
When electric current flows, a magnetic field is formed via induction. When copper wire, or another conductor is wrapped around a metal core, it forms an electromagnet.
An electric current carries electrons from an area of high potential to another area of low potential. Potential difference is the condition that must exist for a current to move electrons around.
Charge is never created or destroyed. What we call "charging" an object, or discharging it, or collecting charge, is really just moving around some charge that was there all the time. Any material normally has equal amounts of positive and negative charges in the atoms that comprise it. In some materials, the electrons are rather loosely bound to their atoms, and some of them can be "stripped off" and moved to somewhere else. (That's what… Read More
Yes, a moving electric charge creates a magnetic field around its path of travel, and this is true for any charged particle. Further, it is the basis for the idea that the electromagnetic force is one force. Physics views electric fields and magnetic fields as being derived from just that one force we mentioned. When we see charges moving continuously, we will see a "standing" magnetic field around the current path. And the magnetic field… Read More
Yes. When a magnetic field is moving with respect to the electron, a force will be exerted on the electron. This is a fundamental relationship. One of the four basic forces in the universe is the electromagnetic force. Not the electric force and not the magnetic force - the electromagnetic force. Let's check out a few fundamental ideas. The movement of any charged particle will create a magnetic field around its path of travel. No… Read More
Electrons, they actually have an electric charge (like protons, but not neutrons), plus they are lighter and spin around the nucleus in the outer shell. This makes it easier to transfer to other atoms.
Usually around 24 hours unless they are holding you for something else such as a material witness to another crime.
Electrons are negatively charged (around the nucleus) and protons are positively charged (inside the nucleus)
Simply put, electrons orbit the nucleus of an atom because the electric charge of the nucleus, which is positive, attracts and "holds" the negatively charged electrons in their orbits. ----------------------------------------------------------------------------------------------------- Electrons dont orbit at all. They occupy a space around their nucleus.
What is the relationship between the direction of an electric field and the direction of the force that the field would exert?
The direction of an electric field is the direction of the force that the field would exert on a proton.. ___ The relationship of the direction of an electric field and the direction of force that the field would exert are the same. Let's look. Consider the humble electron, the carrier of the negative electrostatic force. The electric field around the electron can be said to "stand out around the electron" equally and in all… Read More
Protons and neutrons, firstly, are much larger than electrons. They are packed tightly together in the center of the atom, while electrons flow freely in all directions around them. Also, protons are positively charged, electrons are negatively charged, and neutrons have no charge at all.
An electric field is the field associated with a charged body, and it is the extension of the electric charge on the individual subatomic particles that make up the matter in that body. And imbalance in the charges will engender an electric field (an electrostatic field) on the object. A magnetic field is created as a result of some type of uniform motions of charges. Take the electron, the basic "moving charge" we know so… Read More
Atoms have a positively charged nucleus (with positively charged protons and neutral neutrons) at the centre and negatively charged electrons revolving around it.
neutrons (neutrally charged) and protons (positively charged) make up the central nucleus. the negatively charged electrons orbit around the nucleus. If there are the same number of protons and electrons, the atom is neutrally charged.
they rotate around the atom because the protons are positively charged and electrons are negatively charged. :D
Negatively charged particles in an atom that move around the nucleus are called electrons.
All the electricity you use has been created by humans. Electricity is energy which results from the behaviour of charged particles: electrons and protons. Electricity, as in electric current, can be created by man using machines such as generators to power tools and devices which are operated by electric power. Electricity can also occur naturally, and has done so since before humans were around to work out how to use it; lightning and static (frictional)… Read More