Particle Q1 Has A Charge Of 2.7 Μc And A Velocity Of 773 M/S. If It Experiences A Magnetic Force Of 5.75 × 10–3 N, What Is The Strength Of The Magnetic Field?

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Particle Q1 Has A Charge Of 2.7 Μc And A Velocity Of 773 M/S. If It Experiences A Magnetic Force Of 5.75 × 10–3 N, What Is The Strength Of The Magnetic Field?. Particle q₁ has a charge of 2.7 μc and a velocity of 773 m/s. The strength of the magnetic field experienced by particle q₁ is 2.8 t (c), and the magnetic force on particle q₂ is 0.042 n (a).

According to physic's magnetic law, the relation between a magnetic force, velocity, charge and magnetic field of a particle is :[tex]f_{b} =|q|vbsin\alpha[/tex]; Where f is the magnetic force, q1 is the charge of the particle, v is the velocity, and b is the strength of the magnetic field. If it experiences a magnetic force of 5.75 × 10⁻³ n, what is the strength of the magnetic field?

Rearranging The Formula To Solve For B, We Have:

Frac 2 _ t the same magnetic field, particle q_2 has a charge of 2.0 μc and a velocity of 1.21*. Where f is the magnetic force, q1 is the charge of the particle, v is the velocity, and b is the strength of the magnetic field. Particle q₁ has a charge of 2.7 μc and a velocity of 773 m/s.

Particle Q1 Has A Charge Of 2.7 Μc And A Velocity Of 773 M/S.

According to physic's magnetic law, the relation between a magnetic force, velocity, charge and magnetic field of a particle is :[tex]f_{b} =|q|vbsin\alpha[/tex]; If it experiences a magnetic force of 5.75 × 10⁻³ n, what is the strength of the magnetic field? Θ is the angle between the velocity and the.

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The strength of the magnetic field experienced by particle q₁ is 2.8 t (c), and the magnetic force on particle q₂ is 0.042 n (a). We can rearrange the formula to solve for.

Particle q1 has a charge of 2.7 μc and a velocity of 773 m/s. if it experiences a magnetic force of 5.75 × 10–3 n, what is the strength of the magnetic field?