No. Resistance and density are unrelated properties; for example, salt water is denser than oil, but has a much lower resistance.
That is the density of the carpet. The higher the density, the more durable the carpet.
The answer depends on what kind of pressure. If you mean the pressure exerted by gasses on the walls of a container (a balloon, for example), pressure is created by the motion of the molecules of gas. Temperature and density of the molecules are factors. Higher density results in higher pressure. Higher temperature creates more molecular motion, thereby creating higher pressure.
It means your bones are strong and heavy. That's good, but don't get fat.
No. Neptune's mean density is 1.638 g/cm³.
The density of Saturn is less than the density of water, about 70% of water's density in fact.
means that plasticine has higher density.
That is the density of the carpet. The higher the density, the more durable the carpet.
Having a high population density means that there are more people living in a certain distance, for example Japan would have a higher population density if 1000 people lived in an area of 1 km squared. The higher the number, the higher the population density.
Voltage is not measured in ohms. It is measured in volts.
The density of thorium is 11,724 g/cm3. The Mohs hardness of thorium is 3. Density is the ratio between mass and volume. Hardness is a measure of resistance of a material under a compressive force.
No. Air has a mean density of about 1.2 kg/m^3 at sea level; less at higher elevations. Earth has a mean density of about 5,500 kg/m^3.
-- If you're talking about physical density, then a more-dense substance hasmore mass than a less-dense one has in the same volume.-- If you're talking about optical density, then a more-dense medium has ahigher refractive index (the speed of light is lower in it) than a less-dense one.Higher optical density does not necessarily also mean higher optical density,although I don't have a specific example to give you.
Rocks sink because they have a higher density than water. Water's density is 1.00. Feathers float because their density is lower than that.Rocks sink because they have a higher density that water.Thus they have a greater mass per unit volume which would mean that the force acting per unit volume due to gravitational force.
The answer depends on what kind of pressure. If you mean the pressure exerted by gasses on the walls of a container (a balloon, for example), pressure is created by the motion of the molecules of gas. Temperature and density of the molecules are factors. Higher density results in higher pressure. Higher temperature creates more molecular motion, thereby creating higher pressure.
It means your bones are strong and heavy. That's good, but don't get fat.
AnswerThe resistance of a material depends on its length, cross-sectional area, and resistivity. This is expressed by the following equation:resistance = [(resistivity x length) / cross-sectional area]So, resistance is directly-proportional to the resistivity and length of the material, and inversely-proportional to its cross-sectional area. So a high resistance can be obtained by increasing the length of the material or by decreasing its cross-sectional area, or by choosing a material with a high resistivity.It's also worth pointing out that resistivity is affected by temperature. For pure metals, the higher the temperature, the higher the resistivity, so the higher the resisistance. For example, a hot (i.e. an operating) tungsten lamp will have a much higher resistance than a cold tungsten lamp.
There are two ways of looking at this question, depending on what you mean by 'voltage'.The first applies to the supply voltage, which is quite independent of a circuit's load resistance. In other words, changing the load resistance will have no effect on the supply voltage (within limits; for example, and extremely-low resistance might cause the supply voltage to collapse!).The second applies to any voltage drops, which are proportional to the resistance across which they appear. If, for example, you have a high resistance and a low resistance, in series, then the higher voltage drop will appear across the higher resistance.