it measures how much force is needed to to move it
It measures forces in Newtons.
Force - Meter
A newton meter is used to measure force.
A force meter measures a force being applied. It is often as simple as a spring with calibrated markings. The most common example is a spring weighing scale that measure the gravitational force on an object. Other systems use solid state sensors such as electronic weighing scales. Note that a force meter used to weigh objects is a measure of gravitational force and does not measure mass. Weight and mass are commonly confused.
No, a bungee cord cannot be used as a force meter because the elasticity of a bungee cord is not that much, compared to a force meter.
Yes, a meter stick can be used to measure length.
''We mesure'' force by ''using force '''meter ( also known as newton meter)'''''
Newton meter is a measure of energy, E= fd, Energy equals .Newton (force) times meter(distance)
With a newton-meter.
They are Force meter or Force gauge that use to measure the force. The meter may use spring of known elasticity or electro-magnet to balance and measure out the force.
Yes, weight is a force.
Force - Meter
A magnetometer is used to measure magnetic force in magnetic fields.
A Newton meter does not measure force! Newton meter measures energy E. A Newton measures force. A Nm (Newton Metre)is also the unit used to measure TORQUE which is the twisting energy available if a force of 1Newton was acting at a radius of 1metre on the end of a shaft. A Newton is equal to 0.102 Kilogram. A Newton does not measure force, it is a unit of force, just as a kilogram is a unit of force. Scientists and physicists need to be very clear and precise when they explain technical terms.
You can use a force meter to measure the amount of force needed to pull a toy car towards you.
Yes, a weight is a force - the force with which the Earth's gravitation attracts an object.
A newton meter is used to measure force.
A force meter is a device used to measure forces of the universe. It can measure friction, tension, and gravity.