can someone please explain this aim:

To investigate how the force acting on a bar magnet placed in a current carrying coil is related to the coil??? what is the force called?

Magnetic force and magnetic torque.

The aim of the investigation is to understand the relationship between the force acting on a bar magnet placed in a current carrying coil and the characteristics of the coil itself. This involves analyzing the impact of the coil on the force experienced by the magnet.

The force experienced by a magnet in a current carrying coil is known as the magnetic force or the Lorentz force. This force occurs when a magnetic field interacts with an electric current, resulting in a mechanical force.

To investigate this force and its relationship to the coil, you can perform the following steps:

1. Set up the experiment: Arrange a current carrying coil and a bar magnet in a suitable manner. The coil should be connected to a power source to allow current flow.

2. Measure the force: Attach a suitable measuring instrument (such as a spring balance or force sensor) to the bar magnet to measure the force experienced by the magnet within the coil.

3. Vary the coil characteristics: To understand the relationship between the force and the coil, you can change different aspects of the coil, such as the number of turns in the coil, the radius of the coil, or the amount of current passing through the coil.

4. Record data: With each variation you make to the coil, measure and record the force experienced by the magnet. Maintain a table or a graph to help visualize the relationship between the different coil characteristics and the resulting force.

5. Analyze the results: Examine the data collected to identify any patterns or trends that emerge. Determine whether there is a direct relationship between the coil characteristics and the force acting on the magnet. You can also compare your findings with existing theoretical knowledge or equations, such as Ampere's Law, to draw further conclusions.

By conducting this investigation, you can gain a better understanding of how the force acting on a bar magnet in a current carrying coil is related to various characteristics of the coil.