An electroscope can determine the presence of electric charges. When a charged object is brought close to the electroscope, it causes the leaves of the electroscope to either repel or attract each other, indicating the presence and type of charge.
The leaves of a gold leaf electroscope attract each other when the electroscope is charged with the same type of charge (positive or negative) on both the leaves. This causes them to repel from the stem and move closer towards each other.
If the electroscope is not charged, the leaves will remain in their neutral state, hanging down vertically due to gravity. When a charge is introduced, the leaves will either repel or attract each other, depending on the type and amount of charge applied.
You can use an electroscope to see if something is charged. When a charged object is brought near the electroscope, the leaves of the electroscope will either repel or attract each other, indicating the presence of a charge.
Gold or aluminum leaves are used in an electroscope because they are lightweight and easily charged when exposed to static electricity. When a charged object comes near the electroscope, the leaves either repel or attract each other, indicating the presence of a charge. This makes them ideal for detecting small amounts of electric charge.
An electroscope can determine the presence of electric charges. When a charged object is brought close to the electroscope, it causes the leaves of the electroscope to either repel or attract each other, indicating the presence and type of charge.
The leaves of a gold leaf electroscope attract each other when the electroscope is charged with the same type of charge (positive or negative) on both the leaves. This causes them to repel from the stem and move closer towards each other.
If the electroscope is not charged, the leaves will remain in their neutral state, hanging down vertically due to gravity. When a charge is introduced, the leaves will either repel or attract each other, depending on the type and amount of charge applied.
You can use an electroscope to see if something is charged. When a charged object is brought near the electroscope, the leaves of the electroscope will either repel or attract each other, indicating the presence of a charge.
Gold or aluminum leaves are used in an electroscope because they are lightweight and easily charged when exposed to static electricity. When a charged object comes near the electroscope, the leaves either repel or attract each other, indicating the presence of a charge. This makes them ideal for detecting small amounts of electric charge.
An electroscope detects an electric charge by using the principle of electrostatic induction. When a charged object comes near the electroscope, it induces a separation of charge within the electroscope, causing the leaves to either repel or attract each other depending on the type of charge present. This movement of the leaves indicates the presence and type of electric charge.
The leaves of a metal leaf electroscope repel each other because they become charged with the same type of charge when a charged object is brought close to the electroscope. Like charges repel each other, causing the leaves to move apart. This is due to the Coulomb's law, which states that like charges repel and opposite charges attract.
A gold leaf electroscope is an instrument used to detect the presence of an electric charge. When a charged object is brought close to the metal plate at the top of the electroscope, the gold leaves will either repel or attract each other, depending on the type of charge present. This movement of the gold leaves indicates the presence of electric charge.
If the leaves of an electroscope hang down, it typically indicates that the electroscope is positively charged since like charges repel each other. The excess positive charge on the electroscope causes the leaves to spread apart due to the repulsive force.
the electroscope has become charged with either positive or negative charges. The like charges repel each other causing the leaves to spread apart.
To determine the charge of a body using an electroscope, place the body near the electroscope's metal cap. If the electroscope's leaves repel each other, the body has the same charge as the electroscope. If the leaves collapse, the body has the opposite charge.
When a charged object touches the metal knob of an electroscope, it transfers some of its charge to the electroscope, causing the leaves to acquire the same charge. Like charges repel each other, so the leaves spread apart from each other due to the repulsive force. This demonstrates the presence of excess charge on the electroscope.