Which of the following changes would result in an increase to the value of magnetic force...

1.Which of the following statements about the direction of a magnetic force is always true? (Note:...

1.Which of the following statements about the direction of a magnetic force is always true? (Note: More than one answer choice may be correct a. The direction of the magnetic force on a moving charged particle is perpendicular to the direction of the external magnetic field. b. The direction of the magnetic force on a moving charged particle is parallel to the direction of the charged particle's velocity. c. The direction of the magnetic force on a moving charged particle...

1. Which of the following statements about the direction of a magnetic force is always true?...

1. Which of the following statements about the direction of a magnetic force is always true? (Note: More than one answer choice may be correct) a)The direction of the magnetic force on a moving charged particle is parallel to the direction of the external magnetic field. b)The direction of the magnetic force on a moving charged particle is parallel to the direction of the charged particle's velocity. c)The direction of the magnetic force on a moving charged particle is perpendicular...

Does increasing the current always increase the magnetic force on the wire? is there a case...

Does increasing the current always increase the magnetic force on the wire? is there a case where increasing the current does not increase the magnetic force on the wire? Describe this case. Please provide detailed explanation, especially with the second question. Thank you!

Analyze and answer the following questions: 1- The magnetic force on a charged particle is perpendicular...

Analyze and answer the following questions: 1- The magnetic force on a charged particle is perpendicular to the speed ?⃗ it moves with, so it is said that, in this case, the magnetic force does no work over the charged particle. Explain this statement. 2- Does a magnetic force acting on the moving part of a circuit do work? Justify your statement with an example and the respective equations 3- Build an example, with feasible data, of the magnetic force...

1. Consider a region with a magnetic field directed into the screen. If a positively charged...

1. Consider a region with a magnetic field directed into the screen. If a positively charged particle moves toward the right side of the screen, then the force would be directed in which direction? toward the top of the screen toward the left side of the screen toward the right side of the screen out of the screen toward the bottom of the screen into the screen 2. Consider a region with a magnetic field directed into the screen. If...

Analyze and answer the following questions: 1- The magnetic force on a charged particle is perpendicular...

Analyze and answer the following questions: 1- The magnetic force on a charged particle is perpendicular to the speed ?⃗ it moves with, so it is said that, in this case, the magnetic force does no work over the charged particle. Explain this statement. 2- Does a magnetic force acting on the moving part of a circuit do work? Justify your statement with an example and the respective equations 3- Build an example, with feasible data, of the magnetic force...

The direction of the magnetic force on an electron moving through a magnetic field is the...

The direction of the magnetic force on an electron moving through a magnetic field is the same as the direction of the vector formed by taking the cross product of the velocity with the magnetic field (v x B).            True/ False The magnetic field is also referred to as the magnetic flux _____________ [one word]. Consider a particle moving through a magnetic field. If the magnetic field doubles and the velocity of the particle halves, the magnetic force will:...

6 of 20 Which of the following statements concerning conventional current is correct?             Conventional current...

6 of 20 Which of the following statements concerning conventional current is correct?             Conventional current is the movement of positive charge and flows through a circuit in a direction from positive to negative.             Conventional current is the movement of positive charge and flows through a circuit in a direction from negative to positive.             Conventional current is the movement of negative charge and flows through a circuit in a direction from positive to negative.             Conventional current is...

A proton is accelerated through a potential difference of 10 kV and enters a uniform magnetic...

A proton is accelerated through a potential difference of 10 kV and enters a uniform magnetic field at right angles. Calculate the value of the magnetic flux density necessary to move the proton in a circular path of radius 10 mm. [6] A piece of wire of cross-sectional area A and resistivity ρ is bent into a circular loop of radius r and placed in a magnetic field with its plane at right angles to the field. Determine the magnitude...

A magnetic field, strength 3T, has a direction out of the page. A loop of wire...

A magnetic field, strength 3T, has a direction out of the page. A loop of wire sits in the field and on the plane of the page (area vector of loop is out of page). The loop is much smaller than the extent of the field. The magnetic field starts to slowly change at a rate of -0.0001T/s. Looking down on the loop, which statement is correct? A. Magnetic flux out of page decreasing; anti-clockwise current induced in loop B....