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It depends on magnitude.
As a general rule, when moving left to right on the periodic table the atomic radius decreases due to increasing electromagnetic attraction of the nucleus to the electrons.
Both the absorption and the luminosity of a blackbody in equilibrium increase in magnitude with increasing temperature, and the spectral distribution of the luminosity increases in frequency (decreases in wavelength).
speed has magnitude. velocity has magnitude and direction.
The measure of energy released by an earthquake depends on its magnitude. If its a high magnitude earthquake, there is a lot of energy. If there is a low magnitude, then there is little energy.
It depends on magnitude.
No, the electric field oscillates in magnitude and direction as it propagates in the electromagnetic wave.
As you increase the mass the magnitude of the gravitational force will increase as well.
Poynting vectors represent the directional energy flux density of electromagnetic fields. The term describes the direction and magnitude of how energy flows in electromagnetic waves.
Induced voltage can be increased by increasing flux density, velocity of conductor cutting flux lines or increasing the size of your coil.
The direction will change; the magnitude of the resultant force will be less.
The direction will change; the magnitude of the resultant force will be less.
As a general rule, when moving left to right on the periodic table the atomic radius decreases due to increasing electromagnetic attraction of the nucleus to the electrons.
Of course. The magnitude (size) of acceleration is the rate at which speed is changing. As long as the magnitude of acceleration is more than zero, speed is increasing. If the magnitude of acceleration is decreasing, then speed is growing more slowly, but it's still increasing. That's exactly what's happening to an object falling through air. As it falls faster and faster, the force of air resistance increases. The object's acceleration shrinks, and it's speed increases more slowly. When the force of air resistance is equal to the object's weight, the net force on it is zero, its acceleration is zero, and its speed stops increasing. It's then at 'terminal velocity'.
There are several equivalent versions of the Hertzspung-Russell diagrams of stars. The horizontal axis is either the surface temperature (increasing to the left). The vertical axis measures the luminosity (increasing upwards) or absolute magnitude (increasing downwards).
No. Standard deviation is not an absolute value. The standard deviation is often written as a single positive value (magnitude), but it is really a binomial, and it equals both the positive and negative of the given magnitude. For example, if you are told that for a population the SD is 5.0, it really means +5.0 and -5.0 from the population mean. It defines a region within the distribution, starting at the lower magnitude (-5.0) increasing to zero (the mean), and another region starting at zero (the mean) and increasing up to the upper magnitude (+5.0). Both regions together define the (continuous) region of standard deviation from the mean value.
Yes. The strength of the magnetic field surrounding a conductor is proportional to the magnitude of the current in the conductor.