Increasing the surface area of an object exposed to the water, such as by adding fins or protrusions. Increasing the speed at which the object moves through the water, which will result in greater resistance due to higher fluid forces. Increasing the viscosity of the water, which will create more drag and resistance when the object moves through it.
When the resistance force is increased on a lever, the effort force required to lift it also increases. This means more force is needed to overcome the resistance and achieve a balanced system.
Yes, increased friction between the water and the streambed will create resistance that slows down the flow of water. This can result in changes to the velocity and turbulence of the water flow.
Yes, a longer wire typically results in higher resistance due to increased resistance caused by the increased length. This is because longer wires offer more resistance to the flow of electrons.
Running in water is more difficult because of the increased resistance the water provides compared to air. The water creates more drag and makes it harder to move quickly. Additionally, the buoyancy of water can make it harder to maintain balance and coordination while running.
If Rotor resistance is increased torque is increased
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
If the resistance is increased the current, which is inversely proportional, decreases and, the voltage drop increases.
when the lengh of the conductor is increased by 25%. find the increase in its resistance
Increasing the surface area of an object exposed to the water, such as by adding fins or protrusions. Increasing the speed at which the object moves through the water, which will result in greater resistance due to higher fluid forces. Increasing the viscosity of the water, which will create more drag and resistance when the object moves through it.
it increases
V = IR Where, V = voltage I = current R = resistance Thus if resistance is increased with constant voltage current will decrease
Increased airway resistance leads to increased negative intra-pleural pressure (more negative pressure), as it requires increased effort to overcome the resistance and maintain adequate airflow into the lungs. This increased pressure difference helps to keep the airways patent by promoting dilation of the bronchioles. If the resistance becomes too high, it can result in excessive negative pressure and potentially lead to airway collapse.
a constant resistance
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
Water resistance is huge!!