Speed is directly related to power. As speed increases, power also increases. And as speed decreases, power also decreases.
Yes, the design of a car can affect its speed. Factors such as aerodynamics, weight distribution, and overall shape can impact the car's ability to move efficiently through the air, which can ultimately affect its speed and performance. sleek, streamlined designs are typically better suited for achieving higher speeds.
Yes, running speed can affect your jumping distance because a faster running speed can help generate more momentum and power for the jump. The faster you run, the more force you can exert on takeoff, allowing you to jump higher or farther.
The number of batteries can affect the speed of a motor. Increasing the number of batteries can provide more power to the motor, potentially increasing its speed. However, there may be limitations based on the motor's design and the capacity of the batteries.
The size of a rocket does not directly affect its speed. The speed of a rocket is determined by factors such as its engine power, fuel efficiency, and aerodynamics. However, a larger rocket may have more room for larger engines or additional fuel, allowing it to potentially achieve higher speeds.
The cross sectional area of a car is dependent on its height. As the area changes the drag on the car, it is likely that increasing the height of a car will also reduce its top speed. There are many other factors that affect a car's maximum speed so a change in height may not always result in a change in top speed.
Leg power certainly affects the speed of an athlete. The strength generated by pushing against the ground usually increases speed.
Drag coefficient and power to weight ratio come to mind .
Drag coefficient and power to weight ratio come to mind .
Yes, the design of a car can affect its speed. Factors such as aerodynamics, weight distribution, and overall shape can impact the car's ability to move efficiently through the air, which can ultimately affect its speed and performance. sleek, streamlined designs are typically better suited for achieving higher speeds.
The profile of the car determines the aerodynamics. The more aerodynamic the car is the less power it takes to move it through the air. That power not used to move the air translates to more speed.
The steeper a river's gradient, the faster and greater the erosive power is.
The wheel size does affect its speed.
Yes, running speed can affect your jumping distance because a faster running speed can help generate more momentum and power for the jump. The faster you run, the more force you can exert on takeoff, allowing you to jump higher or farther.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
The size of the tyre affects top speed by altering the gearing. Assuming the engine has the power, a larger size wheel and tyre (diameter) will result in higher top speed.
The number of batteries can affect the speed of a motor. Increasing the number of batteries can provide more power to the motor, potentially increasing its speed. However, there may be limitations based on the motor's design and the capacity of the batteries.
The size of a rocket does not directly affect its speed. The speed of a rocket is determined by factors such as its engine power, fuel efficiency, and aerodynamics. However, a larger rocket may have more room for larger engines or additional fuel, allowing it to potentially achieve higher speeds.