Decreased.
f (frequency) times wl (wave length) = a constant (the speed of light)
thus if one goes up the other MUST come down.
Yes , because when lens is deeped in water its R.I changes & hence focal length is increased
If half of its length is increased by 2%, then its entire length is increased by 1%.In order to know how this affects the wire's resistance, we'd want to be able toassume that its composition and cross-section are constant along its length. Thiscould be a risky assumption, especially since the length was increased ... possiblyby stretching the wire, which would certainly affect the cross section.But without overthinking the situation and making myself nervous about it, lets justassume uniform composition and cross-section along the entire length, throughoutthe observation period. Then its resistance also increases by 1%.
The current at every point in the series circuit becomes slightly less, because the increased length of wire adds slightly more resistance to the loop.
decreasing focal length of the lens
Not at all. The focal length is determined by the curvature of the surfaces.
It is doubled.
Yes , because when lens is deeped in water its R.I changes & hence focal length is increased
The length of the air column is usually increased slowly because of resonance.
The number of times a variate is observed in a population is the frequency of that variate. For example if plant length is under observation and in a population of plants having one meter length is measured 15 ; the frequency of 1 m tall plants will be 15.
The period increases too.
it increases
If half of its length is increased by 2%, then its entire length is increased by 1%.In order to know how this affects the wire's resistance, we'd want to be able toassume that its composition and cross-section are constant along its length. Thiscould be a risky assumption, especially since the length was increased ... possiblyby stretching the wire, which would certainly affect the cross section.But without overthinking the situation and making myself nervous about it, lets justassume uniform composition and cross-section along the entire length, throughoutthe observation period. Then its resistance also increases by 1%.
The input force would increase as the height of the ramp increased. It wouldn't matter the distance. Ask me another one.
It is the traveling of the electrical signal down the length of a neuron.
10
when the lengh of the conductor is increased by 25%. find the increase in its resistance
Length is a property not a change.