Increasing force increases acceleration but increasing mass decreases acceleration.
Recruitment affects the number of motor units activated in a muscle, while frequency of stimulation affects the force generated by those motor units. Increasing recruitment leads to more muscle fibers being recruited, increasing force production, while increasing frequency of stimulation produces stronger muscle contractions by increasing the rate at which motor units are activated.
increasing mass affects the force of objects in motion because it will slow the object down than its neighbor
increasing mass affects the force of objects in motion because it will slow the object down than its neighbor
The number of coils in a coil of wire affects the magnetic force by increasing the strength of the magnetic field generated. More coils result in a stronger magnetic field due to increased current flow and the formation of more magnetic field lines. This increase in magnetic force is proportional to the number of coils in the wire.
The force of gravity affects the energy of an object in motion by either increasing or decreasing its potential and kinetic energy. Gravity can either pull the object down, increasing its kinetic energy, or lift it up, increasing its potential energy.
Depends on the total number of individual muscle fibers that have been stimulated.
Increasing the length of a ramp does not change the mechanical advantage, as mechanical advantage depends on the ratio of the output force to the input force. The length of the ramp affects the distance over which the force is applied, but not the mechanical advantage itself.
Increasing force or decreasing mass will lead to greater acceleration, as per Newton's second law of motion (F = ma). This is because acceleration is directly proportional to force and inversely proportional to mass. More force applied to an object or less mass of the object will result in a higher acceleration.
The total force that a muscle generates during a stimulated twitch depends on the frequency and intensity of the stimulation. In general, as the stimulation frequency increases, the force generated by the muscle also increases up to a point, where it reaches a plateau known as tetanus. After this point, increasing the stimulation frequency further does not significantly increase the force output.
The phenomenon you are referring to is called the second stimulus before relaxation, which causes increased force, is known as the treppe effect or the staircase phenomenon. This is characterized by the successive increase in muscle contraction force when muscle fibers are stimulated with increasing frequency.
No, the horizontal component of a force is directly related to the magnitude of the force. Increasing the horizontal component of the force would require increasing the magnitude of the force itself.