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Determine the magnitude and direction of F so that the particle is in equilibrium?
To have equilibrium, the net force acting on the particle must be zero. The magnitude of force F must be equal in magnitude (but opposite in direction) to the resultant of all other forces acting on the particle. Therefore, to determine F, you need to calculate the vector sum of all other forces acting on the particle and then determine the magnitude and direction for F.
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If the acceleration of a particle is constant in magnitude but not in direction what type of path the particle follow?
If the acceleration of a particle is constant in magnitude but not in direction, the particle will follow a curved path. The changing direction of the acceleration will cause the particle to continually change its velocity vector, resulting in curved motion.
Can particle with constant velocity be accelerating?
No. Velocity implies both a magnitude and a direction.No. Velocity implies both a magnitude and a direction.No. Velocity implies both a magnitude and a direction.No. Velocity implies both a magnitude and a direction.
Can the speed of the particle ever be negative if so give an example if not explain why?
No, the speed of a particle cannot be negative. Speed is a scalar quantity and is always positive, representing the magnitude of the velocity of an object. Negative values are used to represent the direction of motion in one-dimensional motion.
How do you determine amplitude of wave?
The amplitude of a wave is the maximum displacement of a particle from its equilibrium position. It can be determined by measuring the distance from the equilibrium position to the highest point of the wave or the peak of a wave.
What is the maximum displacement of a particle within a wave above or below its equalibreum position?
The maximum displacement of a particle within a wave above or below its equilibrium position is called the "amplitude" of the wave. It represents the maximum distance the particle moves away from its equilibrium position in either direction as the wave passes through.
Define triangle law of forces and polygon law of forces?
Three forces in equilibrium can be represented in magnitude and direction by the three sides of a triangle taken in order. If a number of forces acting simultaneously on a particle be represented in magnitude and direction by the sides of a polygon taken in order, their resultant may be represented in magnitude and direction by the closing side of the polygon taken in opposite order.
If the acceleration of a particle is constant in magnitude but not in direction what type of path the particle follow?
If the acceleration of a particle is constant in magnitude but not in direction, the particle will follow a curved path. The changing direction of the acceleration will cause the particle to continually change its velocity vector, resulting in curved motion.
Can particle with constant velocity be accelerating?
No. Velocity implies both a magnitude and a direction.No. Velocity implies both a magnitude and a direction.No. Velocity implies both a magnitude and a direction.No. Velocity implies both a magnitude and a direction.
What shape would the graph of U versus x have if a particle were in a region of neutral equilibrium?
In neutral equilibrium, displacement in either direction would not affect the potential energy of the particle, therefore, the graph would be horizontal.
Can the speed of the particle ever be negative if so give an example if not explain why?
No, the speed of a particle cannot be negative. Speed is a scalar quantity and is always positive, representing the magnitude of the velocity of an object. Negative values are used to represent the direction of motion in one-dimensional motion.
If the acceleration of a particle is constant in magnitude but not in direction what type of path the particle follows?
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How do you determine amplitude of wave?
The amplitude of a wave is the maximum displacement of a particle from its equilibrium position. It can be determined by measuring the distance from the equilibrium position to the highest point of the wave or the peak of a wave.
What is the maximum displacement of a particle within a wave above or below its equalibreum position?
The maximum displacement of a particle within a wave above or below its equilibrium position is called the "amplitude" of the wave. It represents the maximum distance the particle moves away from its equilibrium position in either direction as the wave passes through.
Path of a particle moving under influence of force fixed in magnitude and direction?
The particle would move in a circular path at a constant distance from the force's origin. This is because the force is always acting perpendicular to the particle's velocity, causing it to change direction but not speed. This results in circular motion.
What causes variation in velocity of a particle?
Variation in velocity of a particle can be caused by changes in the magnitude or direction of the force acting on the particle, inertia of the particle, or interactions with other particles in the system. Additionally, external factors such as friction, air resistance, and gravitational forces can also influence the velocity of a particle.
What requirement must be satisfied by a force acting on a particle in order for the particle to undergo simple harmonic motion?
The force acting on the particle must be directly proportional and opposite in direction to the displacement from the equilibrium position. This requirement ensures that the particle experiences a restoring force that brings it back towards the equilibrium position, allowing for simple harmonic motion to occur.
What is a magnetic field vector?
It is a way of representing the magnetic force at a point in the field. The magnitude and direction of the vector represents the strength and the direction of the magnetic force acting on a charged particle in the field.
