Can you spot the noted relationships in physics crossword puzzles? Perhaps you could use this activity to refresh your memory if you haven’t already done so. This crossword puzzle is based on several relationships in physics in which we will write words related to it. Some of the words in this puzzle are momentum and force, gravity, minimal distance, etc. All these terms connect with each other through the solution of this crossword puzzle. And when you answer questions in physics.
Newton’s Law of Universal Gravitation
In The gravitational force between two objects is directly proportional to the product of their masses and inversely proportional to their distance, according to Newton’s law of gravitation.
Gravitational force is a central concept in Newtonian physics and general relativity. It is responsible for several phenomena on Earth and throughout the universe. Such as the orbits of planets around stars and galaxies. And the motion of celestial bodies under their own gravitational influence. The gravitational attraction of earth is responsible for keeping our feet firmly planted on it.
See the relationships in physics crossword clues, answers, and solutions below. James W. Thomas creates this crossword. Feel free to leave a comment below if something is wrong or missing. We will fix it right away.
Coulomb’s law: noted relationships in physics crossword clue: Downward force = 0.5 ____^2 times the charge of the electron + ____^2 times the charge of the proton.
Answer for Coulomb’s law: noted relationships in physics crossword clue: Downward force = 1/4 ____^2 times the charge of the electron + 1/4 ____^2 times the charge of the proton.
The Boyle law describes the relationship between pressure, temperature, and volume of a gas. It is one of the three major gas laws and it states that the absolute pressure and volume of a gas have an inversely proportional relationship: when one increases, the other decreases, and when one decreases so does the other.
Another relationship in physics is the Boyle’s Law. Or Pascal’s Principle. Robert Boyle and Blaise Pascal were both scientists during this time period.
Ohm’s Law is a law of physics that describes the relationship between voltage and current in an electrical circuit. Georg Ohm, a German physicist, proposed it for the first time in 1827.
Current will flow directly proportionate to the difference in potential or “voltage” across two points in a conductor. Constants of proportionality are measured in ohms, the unit of resistance. If you know any two values of Ohm’s law, you can calculate any other value:
Voltage = Current × Resistance (Ohm’s law)
Current = Voltage / Resistance (Ohm’s law)
Hooke’s law is an essential relationship in physics that states that the magnitude of the force produced by a spring is proportional to the amount of stretch or compression it undergoes.
The spring constant k for spring is defined as the ratio of the force F on an object attached to the spring and its displaced distance x:
F = kx.
Earth’s motion according to Kepler’s Laws
1. At one focus of the elliptical orbit, the sun is located off-center of the orbit of a planet around the sun.
2. Every planet is connected to the sun by an equal-sized line that sweeps the same amount of area at equal intervals.
3. Equal areas are swept by a line connecting the Sun and a planet.
Ideal Gas Law (Equation of State)
The ideal gas law is PV=nRT, where P represents pressure, V represents volume, n represents moles within the system, R represents constant, and T represents temperature.
The above relationship only holds true if the gas behaves as an ideal gas. In other words, if the gas obeys the following rules:
1) Gas volumes remain constant at constant pressure and temperature for a given mass of gas.
2) The ratio of specific heats (Cp/Cv) for a given mass of gas at constant pressure is a constant value independent of temperature.
If you were interested in the types of relationships that are noted in physics, then hopefully this crossword will have helped you out. If you found it a little confusing or hard, then maybe it has encouraged the need to learn more about these types of relationships and some of the physics behind them.