Gravitational Mass in a sentence
(1) The gravitational mass of an object is always positive.
(2) The gravitational mass of the Moon affects the tides on Earth.
(3) The gravitational mass of a planet affects the orbits of its moons.
(4) The inertial mass of an object is related to its gravitational mass.
(5) The inertial mass of an object is independent of its gravitational mass.
(6) The gravitational mass of an object is a fundamental property of matter.
(7) The gravitational mass of an object is a property that cannot be changed.
(8) The gravitational mass of an object can be compared to its inertial mass.
(9) The gravitational mass of an object can be measured using a balance scale.
(10) The gravitational mass of the Moon is much smaller than that of the Earth.
Gravitational Mass sentence
(11) The gravitational mass of an object is directly proportional to its weight.
(12) The gravitational mass of the Earth is responsible for keeping us grounded.
(13) The gravitational mass of an object affects its acceleration due to gravity.
(14) The gravitational mass of an object can be different from its inertial mass.
(15) The gravitational mass of the Sun is what keeps the planets in their orbits.
(16) The gravitational mass of an object is independent of its shape or composition.
(17) The gravitational mass of the Earth is responsible for keeping objects grounded.
(18) The gravitational mass of an object can be used to calculate its escape velocity.
(19) The gravitational mass of a black hole is so immense that it can trap even light.
(20) The gravitational mass of a black hole is so immense that it distorts space-time.
Gravitational Mass make sentence
(21) The gravitational mass of an object affects the time dilation experienced near it.
(22) The gravitational mass of an object determines the curvature of spacetime around it.
(23) The gravitational mass of an object affects the deflection of light passing near it.
(24) The gravitational mass of an object is a measure of the amount of matter it contains.
(25) The gravitational mass of an object affects its weight on different celestial bodies.
(26) The gravitational mass of an object determines the curvature of space-time around it.
(27) The gravitational mass of an object can be used to calculate its gravitational torque.
(28) The concept of gravitational mass is fundamental in understanding the laws of gravity.
(29) The concept of gravitational mass is fundamental to understanding the force of gravity.
(30) The gravitational mass of an object affects the curvature of spacetime in its vicinity.
Sentence of gravitational mass
(31) The gravitational mass of an object determines the strength of its gravitational field.
(32) The gravitational mass of an object is directly proportional to its gravitational pull.
(33) The gravitational mass of an object can be used to calculate its gravitational potential.
(34) The gravitational mass of an object affects the shape of its orbit around another object.
(35) Gravitational mass determines the strength of the gravitational force between two objects.
(36) The gravitational mass of an object is a property that determines its gravitational field.
(37) The gravitational mass of an object determines the amount of gravitational work done on it.
(38) The gravitational mass of an object can be used to calculate its gravitational acceleration.
(39) The gravitational mass of an object is responsible for the bending of light in its vicinity.
(40) The gravitational mass of an object affects the trajectory of a projectile launched near it.
Gravitational Mass meaningful sentence
(41) The gravitational mass of an object affects its ability to attract other objects towards it.
(42) The gravitational mass of an object can be used to calculate its gravitational binding energy.
(43) The gravitational mass of an object can be used to calculate its gravitational field strength.
(44) The gravitational mass of a planet determines its ability to attract and hold onto satellites.
(45) The gravitational mass of an object determines the amount of force it exerts on other objects.
(46) Gravitational mass determines the strength of the gravitational attraction between two objects.
(47) The gravitational mass of an object determines the strength of the tidal forces it experiences.
(48) The gravitational mass of an object can be used to calculate its gravitational potential energy.
(49) The gravitational mass of an object determines the amount of gravitational force it experiences.
(50) The gravitational mass of an object affects the rate at which it falls in a gravitational field.
Gravitational Mass sentence examples
(51) The gravitational mass of an object affects the time dilation experienced by an observer near it.
(52) The gravitational mass of an object can be measured by observing its acceleration due to gravity.
(53) The gravitational mass of an object can be calculated using Newton's law of universal gravitation.
(54) The gravitational mass of an object is a key factor in understanding the dynamics of the universe.
(55) The concept of gravitational mass is fundamental in understanding the behavior of celestial bodies.
(56) The gravitational mass of an object can be calculated by measuring its acceleration due to gravity.
(57) The gravitational mass of an object affects the trajectory of a projectile in a gravitational field.
(58) The gravitational mass of an object is responsible for the tidal forces experienced by nearby objects.
(59) The gravitational mass of an object is directly proportional to the force it experiences due to gravity.
(60) The gravitational mass of an object determines the amount of gravitational potential energy it possesses.
Sentence with gravitational mass
(61) The gravitational mass of an object can be used to calculate the gravitational potential at a given point.
(62) The gravitational mass of an object can be compared to its inertial mass to study the equivalence principle.
(63) The gravitational mass of an object determines how strongly it interacts with other objects gravitationally.
(64) The gravitational mass of an object determines the rate at which time passes for it in a gravitational field.
(65) The gravitational mass of an object can be used to calculate the gravitational potential energy it possesses.
(66) The gravitational mass of an object is inversely proportional to the square of the distance between two objects.
(67) The gravitational mass of an object determines the strength of the gravitational force it exerts on other objects.
(68) The gravitational mass of an object determines how much it will be affected by the gravitational field of another object.
(69) The gravitational mass of an object is a measure of its resistance to changes in its motion caused by gravitational forces.
(70) The gravitational mass of an object can be calculated by dividing the force of gravity acting on it by the acceleration due to gravity.
Gravitational Mass meaning
Gravitational mass is a term used in physics to describe the property of an object that determines the strength of its gravitational attraction to other objects. It is an essential concept in understanding the fundamental principles of gravity and its effects on the universe. In this article, we will explore various tips on how to use the term "gravitational mass" in a sentence effectively.
1. Definition and Context: When using the term "gravitational mass" in a sentence, it is crucial to provide a clear definition or context to ensure the reader understands its meaning. For example: - "Gravitational mass refers to the measure of an object's ability to attract other objects towards itself due to gravity." - "In the field of astrophysics, gravitational mass plays a significant role in understanding the dynamics of celestial bodies."
2. Scientific Explanations: To demonstrate a deeper understanding of the concept, you can use "gravitational mass" in sentences that explain its scientific implications. Here are a few examples: - "According to Newton's law of universal gravitation, the gravitational mass of two objects determines the magnitude of the gravitational force between them." - "The equivalence principle, proposed by Albert Einstein, states that gravitational mass and inertial mass are equivalent, meaning that objects of different masses fall at the same rate in a gravitational field."
3. Comparisons and Contrasts: To highlight the significance of gravitational mass, you can compare it to other related terms or concepts. This can help readers grasp the concept more easily. Consider the following examples: - "Unlike inertial mass, which measures an object's resistance to changes in motion, gravitational mass determines the strength of its gravitational pull." - "Compared to electromagnetic forces, which act between charged particles, gravitational mass has a much weaker influence on the behavior of matter."
4. Real-World Examples: To make the concept of gravitational mass more relatable, you can provide real-world examples in your sentences. This helps readers connect the term to everyday experiences. Here are a few instances: - "The gravitational mass of the Earth is responsible for keeping objects firmly on the ground and determining their weight." - "When an astronaut is in space, their gravitational mass decreases due to the weaker gravitational pull exerted by celestial bodies."
5. Historical Significance: To add depth to your sentences, you can discuss the historical significance of gravitational mass. This can include mentioning notable scientists or experiments related to the concept. Consider the following examples: - "The concept of gravitational mass was first introduced by Sir Isaac Newton in his groundbreaking work, 'Philosophi Naturalis Principia Mathematica.'" - "The famous Cavendish experiment, conducted by Henry Cavendish in 1798, provided the first accurate measurement of the gravitational mass of the Earth."
In conclusion, the term "gravitational mass" is a fundamental concept in physics that describes an object's ability to attract other objects due to gravity. By following these tips, you can effectively incorporate this term into your sentences, providing a clear understanding of its meaning and significance in various contexts.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Gravitational Mass. They do not represent the opinions of TranslateEN.com.