Ours does the same thing. You need to lean on the lid until you hear it kick into cycle. It's like the magnet holding it in place doesn't catch on it until you lean into it. It took us weeks of cursing and kicking the thing until our housekeeper showed us that it just needed a little push.
May be a wigwag problem - one of the coils went bad. Not joking - google it- I had this problem.
You can make a Solar System Model spin by getting one of the spin things for a baby attach strings with planets on it then boom you have it spinning in no time.
Amazon has a Solar Wind Turbine Model for less than $50 and also a USB Wind Turbine Model for the same price. With the solar model the blades spin when sunlight hits the solar panels and with the usb model the blades will spin when connected to a usb port.
Yes, a washing machine uses mechanical energy to agitate and spin the clothes during the wash cycle. This mechanical energy is typically generated by an electric motor that drives the drum's motion.
The transmission will not engage fully,,,the spin cycle may be slow or start off slow OR may not even start is there are too many clothes in the load. The wash cycle may not agitate.
A washing machine typically uses electrical energy to power its motor, control panel, and other components. It also produces mechanical energy to agitate and spin the drum during the wash cycle.
The motor runs in one direction to agitate, in the opposite direction to spin. If the reversing switch is bad, the brake will not release, the tub won't spin, and you may smell the belt getting hot due to slippage.
A washing machine converts electrical energy into mechanical energy to agitate and spin the clothes during a wash cycle. It also uses electrical energy to heat water if a hot water cycle is selected.
It Can Cause The Rocket To Spin Out, and/or wobble of course
Washing machines typically use electrical energy to power the motor, control panel, and heating elements. Some models may also use mechanical energy to agitate and spin the drum during the wash and rinse cycles.
In the shell model, the ground state spin of a nucleus is determined by the unpaired nucleons. For 6C13, the last neutron fills the 1d5/2 orbital, resulting in a spin of 3/2. The parity of the ground state is typically positive for most stable nuclei. For 17CI37, the last neutron fills the 1h11/2 orbital, resulting in a spin of 7/2 and a positive parity for the ground state.
A washing machine contains several simple machines, such as pulleys, gears, and levers. These simple machines work together to create mechanical advantage, allowing the washing machine to agitate, spin, and drain water effectively.