The average distance from the Sun to the asteroid belt, which lies between Mars and Jupiter's orbits, is around 413 million kilometers. This distance varies depending on specific objects in the asteroid belt and their orbits.
The average distance from the Sun to the asteroid belt, which lies between the orbits of Mars and Jupiter, is approximately 413 million kilometers. None of the options given (A) 85, B) 503, C) 189, D) 129) are correct, as the asteroid belt's distance from the Sun ranges from about 329 to 478 million kilometers, with an average of around 413 million kilometers.
The asteroid belt is a region of space filled with countless small bodies made of rock and metal, leftovers from the early formation of our solar system. Its average distance from the Sun depends on various factors, such as the particular objects considered within the asteroid belt and the eccentricity of their orbits.
#SPJ11
The sun creates energy through nuclear fusion. Kinetic energy creates heat and light.
The nuclear energy is the source of energy production on the sun, then this travels to the Earth in the form of Electromagnetic radiation and as it heats up the other bodies in solar system, it gets converted into the heat energy.
Explanation:
The sun is considered to be the ultimate source of energy for the whole solar system. The energy produced in the sun reaches all the other planets in the solar system. The sunlight is a very big source of energy for the Earth also.
The energy produced on the sun is due to the nuclear reaction due to the immense pressure and temperature. This nuclear energy from the sun travels to the other bodies in the solar system by means of the electromagnetic radiations.
The electromagnetic radiations from the sun carry the heat energy to the bodies and as they reach the target, the target is heated up due to the conversion of the energy from the sun into the heat energy.
Thus, The nuclear energy is the source of energy production on the sun, then this travels to the Earth in the form of Electromagnetic radiation and as it heats up the other bodies in solar system, it gets converted into the heat energy.
Learn More:
1. Acceleration of the box under friction brainly.com/question/7031524
2. The kinetic energy of an object depends on the brainly.com/question/137098
3. The approximate time taken to walk for 2000 miles brainly.com/question/3785992
Answer Details:
Grade: High School
Subject: Physics
Chapter: Energy
Keywords:
sun, energy, nuclear, electromagnetic, heat, nuclear reaction, immense, pressure, temperature, source, solar system, planets.
b. False
this would be true.
Final Answer:
To determine if the strength of the electric field decreases as 1 over distance squared (1/r²), we need to measure the electric field at 0.5 m and 1 m directly above the midpoint of a small dipole created by two charges brought very close together.
Explanation:
In this experiment, you're examining the electric field generated by a small dipole. The electric field strength at a distance from a dipole does follow an inverse square law, as suggested by 1/r², which is a fundamental principle of electrostatics. This means that the electric field's strength decreases as you move farther away from the charges.
To verify this, you'll measure the electric field at two different distances (0.5 m and 1 m) directly above the midpoint of the dipole. By comparing these measurements, you can assess whether the field strength obeys the 1/r² relationship. The electric field strength should be four times stronger at 0.5 m than at 1 m if it follows the 1/r² law.
This experiment provides hands-on insight into the behavior of electric fields and their relationship to distance, supporting the foundational principles of electrostatics.
Learn more about distance
#SPJ11
b) visible light, infrared, X rays, ultraviolet, gamma rays, radio
c) radio, infrared, visible light, ultraviolet, X rays, gamma rays
d) gamma rays, X rays, visible light, ultraviolet, infrared, radio
e) radio, X rays, visible light, ultraviolet, infrared, gamma rays
Answer: The answer is "C"
Explanation:
The electromagnetic waves are arranged in the increasing wavelength and energy by the following order;
Radio waves has the lowest energy and wavelength but of the highest frequency.
The Infra-red rays follows the visible light follows, the ultraviolet ray follows, the X-ray follows and then the Gamma-ray has the highest energy and wavelength but the lowest frequency.
Therefore the answer is C, radio, infra, visible, ultraviolet, x-ray, gamma.
Answer:
C
Explanation:
Electromagnetic waves are categorized in terms of their wavelengths and frequency. This categorization is known as the Electromagnetic Spectrum.
When they are arranged in terms of increasing frequency, their wavelengths are decreasing. This is because wavelength and frequency are inversely proportional.
Since energy and frequency are directly proportional, increasing frequency would mean increasing energy.
In terms of increasing energy, the correct order is:
Radio waves
Infrared
Visible light
Ultraviolet
X rays
Gamma rays
Note that rubidium has 48 neutrons.
Compare the number of protons in cesium (Ce) and xenon (Xe).
Count the number of neutrons in an atom of helium.
Comparing the reactivities of lithium (Li) and krypton (Kr) will best disprove this student's idea.
This is defined as a subatomic particle which has a positive charge present in it.
To disprove the claims of the student that you need more protons to have more reactivity, option A was chosen because Krypton has more protons than Lithium, but it is less reactive because it is a noble gas.
Read more about Protons here brainly.com/question/14790671
#SPJ5