If they are connected in series the voltages will add and, theoretically, proportionally speed up the motor.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
the motor
It shouldn't affect the speed much, but at different angles (and the same speed), an object can reach different distances.
The weight, aerodynamics, horse power and gear ratios all affect the speed of an automobile.
Temperature, coefficient of restitution, density are some of the factors that affect the speed of sound in a medium.
petrol motor gets you up and ging then electric motor maintaind the speed. batteries are charged by the rotation of the wheels
The total voltage of the batteries or DC power source connected to a shunt motor affects how first it moves. Increasing the DC voltage will make the shunt motor run faster.
Motor's number of poles.
A milk float (electrically driven low speed truck for) It is basically an electric car There is a electric motor, a control system and a set of batteries.
You would have to use a dimmer switch I would think.
Answer #1 It varies the frequency fed to a synchronous AC motor. As the frequency changes, so does the motor speed. Answer #2 The formula for calculating speed is: (120 X motor supply frequency) / number of poles 120 is a fixed number, so is the number of poles for a given motor, hence the only variable is the motor supply frequency. AC drives vary the motor supply frequency in turn achieving speed control.
no
There are two ways of changing the speed of AC motors,by altering the frequency or the number of poles in the motor. An increase in frequency of the supply voltage to the motor will cause it's speed to increase while reducing the frequency will causes the motor speed to drop. This is the method exploited by Variable Speed/Frequency Drive. The second method of changing the number of motor's stator poles is the difficult. The manufacture must design the motor such that the number of the motor's pole in operation can be increased or reduced. Increasing the number of poles increases the stator flux density which decreases the speed. Decreasing the number of poles does the opposite. This method is typically found in two speed motors and it's rarely used compared to VSDs.
Yes
As the number of poles (P) increases, the speed of an induction motor (N) decreases. As seen by the formula: N=(120*f)/P
he factors affecting the speed of a d.c. motor are, 1. The flux Φ 2. The voltage across the armature 3. The applied voltage V
This is a very simple equation, as the motor is 26ah and the batteries are also 26ah, then they should power the motor to it's maximum effort for 2 hours. However this will all depend on the amount of effort the motor is required to produce. 1, Example; If it is to ensure a flywheel is continuously rotating then it may last for upto and way above 12 hours. This is due to the only real effort on the motor, is getting the flywheel upto speed. (depending on how the motor and batteries are wired up, the motor may start chraging the batteries if the motor slows down REGENERATIVE CHARGING) 2, Example; If it i driving a scooter or childs car with a person in or on it then the motor will have to work harder so the batteries will last 2 hours or less depending on the weight of the passenger. Hope this helps. ;-) Jon jonny86g@yahoo.co.uk