The intense heat from Earth's interior that warms the magma beneath Earth's surface is called?
Answers
Answer:
Geothermal energy
Explanation:
The geothermal energy causes the interior of the Earth to warm up. It warms the magma beneath the surface of the Earth. It is derived within the subsurface by water or wind. It is also used to generate electricity in geothermal power plants. Hot water reservoirs can be found deep in earth's surface. Its steam is used to rotate the turbines and electricity can be generated.
Related Questions
How does a water molecule transfer from the ocean to form part of a cloud in the atmosphere?A. precipitation from the ocean and then evaporation into a cloud B. condensation from the ocean and then evaporation into a cloud C. precipitation from the ocean and then collection into a cloud D. evaporation from the ocean and then condensation into a cloud
The mc002-1.jpgHrxn of formation of carbon dioxide is negative. Which statement is true?
List five factors that may affect the rate of a chemical reaction
Why does a moving object come to a stop on a frictional surface? a.The object’s kinetic energy is transformed into mainly heat energy. b.The object’s potential energy is transformed into mainly kinetic energy. c.The object loses all its energy in deformation. d.The object’s kinetic energy is transformed into mainly potential energy.
Answers
The magnitude of the force F on the 1.0 nC charge 3.11N.
What is force?
A force is an effect that can alter an object's motion according to physics. An object with mass can change its velocity, or accelerate, as a result of a force. An obvious way to describe force is as a push or a pull. A force is a vector quantity since it has both magnitude and direction.
In this problem, the 2.0 nC charges both act forces of equal magnitude on the 1.0 nC charge. Since there x-components are equal but opposite, they cancel out and only the y-components remain and add up. This can be used then to calculate for the magnitude of the total electrostatic force.
F = 2 * q1 * q2 / 4 / pi / eps_0 / r^2 * sqrt(3) / 2
F = 2 * 1.0e-9 * 2.0e-9 / 4 / pi / 8.854e-12 / (1.0e-2)^2 * sqrt(3) / 2
F = 3.11N
The magnitude of the force F on the 1.0 nC charge 3.11N.
To learn more about force refer to the link:
#SPJ2
in scientific notation, how many micrograms make 1 kg
Answers
Please give brainliest
Solids have definite shape and variable volume.
Solids have variable shape and variable volume.
Solids have a definite shape and definite volume.
Solids have a variable shape and definite volume.
Answers
Because they are stiff and the molecules don't move around, they vibrate quickly.
Liquids: indefinite shape, definite volume
Because the shape or "fixed" area of liquids won't stay the same.
Gases: indefinite shape, indefinite volume
Because you've probably noticed, gases are set more freely, allowing molecules to move more freely than in solids and liquids.
x) Hope I helped! Which do you think it is?
Answer:
anwser is c
Explanation:
hope this helps
B. longitudinal.
C. transverse.
D. forced.
Answers
Rarefaction occurs only in a longitudinal wave.
What is refraction?
A light beam refracts whenever it reaches an angled material with a different refractive index. A change in direction results from this acceleration. As an example, consider air entering the water. The speed of the light decreases as it continues to travel at a changingangle.
Transverse waves do not experience rarefaction, which is a phenomenon that only happens in longitudinal waves.
This is due to the fact that longitudinal waves cause the medium through which they travel to be compressed and rarefied.
Transversewaves, however, feature oscillations that are parallel to the direction of the wave.
With a longitudinal wave, the medium's particles are moved along with the wave in the same direction.
Both zones of compression and rarefaction result from this, with the former having the particles closer together than they would be in their equilibrium state.
The wave is produced by the pattern of compression and rarefaction.
Due to the displacement of the medium's particles in the same direction as the wave's propagation, rarefaction only happens in longitudinal waves, where it results in places where the particle spacing is greater than it would be in the equilibrium state.
Learn more about refraction here:
#SPJ6
The correct answer to the question is : B) Longitudinal wave.
EXPLANATION:
Before coming into any conclusion, first we have to understand the nature of sound wave.
The sound wave is a longitudinal wave in which the direction of vibration of particles are parallel to the direction of wave propagation.
In this type of wave, one will find compression and rarefaction. Compression is the high pressure region in which the particles are closely aggregated to each other.
Rarefaction is the low pressure region in which the particles are far away from each other. There is large separation between particles as compared to compression.
Hence, the correct answer is sound wave.
b. lamp
c. resistor
d. ammeter
Answers
In a battery we can able to find the voltage gain.
The following information should be considered;
- Since the battery is treated as the active device.
- But the lamp, resistor, ammeter are considered to be the passive devices that result to the potential drops instead of the voltage gain.
Learn more: brainly.com/question/1691136?referrer=searchResults
Answer:
A
Explanation:
Answers
Temperature is the measure of average kinetic energy of the substance. Temperature rises when the average kinetic energy increases. Kinetic energy is related to the movement of the molecules within the substance. In this case, temperature and kinetic energy are always proportional to each other