Examine the scenario.

1)Two different objects are brought close to one another. The objects pull, or attract, each other.

Which choice correctly identifies the pole(s) that could be interacting?

The poles must be the same, either north and north, or south and south. Like poles attract each other.
One of the objects must have its north pole directed toward a non-magnetic object. A north pole always repels non-magnetic objects.
One of the objects must have its south pole directed toward a non-magnetic object. A south pole always repels non-magnetic objects.
The poles must be opposite, such as north and south. Opposite poles attract each other.

2) Which of the following correctly describes a step-down transformer?
(Select all that apply)

has a higher voltage on the secondary than the primary
used to decrease the voltage that comes out of the transformer
has greater number of windings on the secondary than the primary
has a higher voltage on the primary than the secondary

3) Which of the following choices correctly identifies the process created by moving a magnet through a conducting loop?

conduction
transformation
electromagnetic induction
magnetic field generation

4) Examine the scenario.

A charged particle is placed in Object A’s electric field.

Which choice correctly describes a factor that would strengthen the force the particle experiences in the electric field?

Decrease the magnitude of the charge of Object A.
Increase the distance between the particle and Object A.
Increase the mass of the particle.
Bring the particle closer to Object A.

5) Which choice is correctly defined as a field surrounding an object that is directed away from the north pole and towards the south pole?

matter field
electric field
magnetic field
gravitational field

Please help me I’m really bad a science

i took the test and can confirmed these answers to be correct:

1. Two different objects are brought close to one another. Which choice correctly identifies the pole(s) that could be interacting?
-The objects pull, or attract, each other. The poles must be opposite, such as north and south. Opposite poles attract each other.

2. Which of the following correctly describes a step-down transformer?
(Select all that apply)
-used to decrease the voltage that comes out of the transformer
-has a higher voltage on the primary than the secondary

3. Which of the following choices correctly identifies the process created by moving a magnet through a conducting loop?
-electromagnetic induction

4. Examine the scenario. A negatively charged conductor is brought in contact with a neutral conductor. Which choice most accurately describes the motion of charge between these two objects?
-The electrons in the charged object are attracted to the protons in the neutral object. Some of the electrons move from the charged object to the neutral object, resulting in two negatively charged objects.

6. Which choice is correctly defined as a field surrounding an object that is directed away from the north pole and towards the south pole?
-magnetic field

Thanks a lot! I did read my text, these are just the things I forgot/things I’m not really good at.

What if we literally cannot under stand what we are reading?

well, life still goes on I guess ¯\_(ツ)_/¯

bob shut the hell up

dont be mean to bob

1) The correct choice is, "The poles must be opposite, such as north and south. Opposite poles attract each other." This is because, according to the fundamental principle of magnetism, opposite poles attract each other while like poles repel each other. So, when two objects are brought close to each other and they pull or attract each other, it indicates that the poles involved are opposite.

2) The correct choices for a step-down transformer are:
- Used to decrease the voltage that comes out of the transformer.
- Has a higher voltage on the primary than the secondary.
A step-down transformer is designed to reduce the voltage from the primary winding to the secondary winding. The primary winding has more turns than the secondary winding, resulting in a higher voltage on the primary side and a lower voltage on the secondary side.

3) The correct choice is "electromagnetic induction." When a magnet moves through a conducting loop, it creates a changing magnetic field in the vicinity of the loop. This changing magnetic field induces an electric current in the loop, which is known as electromagnetic induction.

4) The correct choice is "Bring the particle closer to Object A." The force experienced by a charged particle in an electric field depends on the strength of the electric field and the charge of the particle. Bringing the charged particle closer to Object A will increase the strength of the electric field at that location, resulting in a stronger force experienced by the particle.

5) The correct choice is "magnetic field." A magnetic field surrounds an object with magnetic properties, such as a magnet or a magnetic material. The field lines of the magnetic field are directed away from the north pole of the magnet and towards the south pole. This is because magnetic field lines form closed loops and always go from the north pole to the south pole outside the magnet.

So for 3 I know that it would make the electrical energy mechanical energy so would it be D?

1. I assume the question has to do with magnets since all of the answers are for magnets. D is correct.

2. B and D

Those are the only freebies I'm willing to give you on these. Frankly I think this material is in your notes/lectures/textbook. Telling me you're not very good at science won't get it. You could be good, at least better, if you would read and answer these yourself. Please go through the text/notes/etc and answer. Someone will be happy to check your work.