Centre Of Mass in a sentence
Synonym: balance point, centroid.
Meaning: The point at which an object's mass is evenly distributed in all directions.
(1) The centre of mass of a uniform disk lies at its center.
(2) The centre of mass of a uniform ring lies at its center.
(3) The centre of mass of a uniform rod lies at its midpoint.
(4) The centre of mass of a cone lies along its axis of symmetry.
(5) The centre of mass of a planet is typically located at its core.
(6) The gymnast's centre of mass shifted as she performed a backflip.
(7) The centre of mass of a cylinder lies along its axis of symmetry.
(8) The centre of mass of a uniform disk lies at its geometric center.
(9) The centre of mass of a uniform cube lies at its geometric center.
(10) The centre of mass of a uniform ring lies at its geometric center.
Centre Of Mass sentence
(11) The centre of mass of a uniform prism lies at its geometric center.
(12) The centre of mass of a hollow cylinder lies at its axis of symmetry.
(13) The centre of mass of a uniform cone lies along its axis of symmetry.
(14) The centre of mass of a uniform cylinder lies at its axis of symmetry.
(15) The centre of mass of a rectangular plate lies at its geometric center.
(16) The centre of mass of a uniform hemisphere lies at its geometric center.
(17) The centre of mass of a triangle lies at the intersection of its medians.
(18) The stability of an object depends on the position of its centre of mass.
(19) The centre of mass of a human body is typically located around the navel.
(20) The centre of mass of a uniform sphere is located at its geometric center.
Centre Of Mass make sentence
(21) The centre of mass of a polygon lies at the intersection of its diagonals.
(22) The centre of mass of a symmetrical object lies along its axis of symmetry.
(23) The centre of mass of a uniform hemisphere lies along its axis of symmetry.
(24) The centre of mass of a rectangle lies at the intersection of its diagonals.
(25) The centre of mass of a trapezoid lies at the intersection of its diagonals.
(26) The centre of mass of a system of objects can be affected by external forces.
(27) The centre of mass of a system of objects can be influenced by external forces.
(28) The centre of mass of a human body is typically located around the belly button.
(29) The centre of mass of a parallelogram lies at the intersection of its diagonals.
(30) The centre of mass of a quadrilateral lies at the intersection of its diagonals.
Sentence of centre of mass
(31) The centre of mass of a system of objects can be used to determine its stability.
(32) The centre of mass of a system of objects can be used to analyze their stability.
(33) The centre of mass of a system of particles can be used to analyze its collisions.
(34) The centre of mass of a system of objects can be used to determine its equilibrium.
(35) The centre of mass of a irregularly shaped object can be determined experimentally.
(36) The centre of mass of a uniform tetrahedron lies at the intersection of its medians.
(37) The centre of mass of a system of particles can be calculated using vector addition.
(38) The centre of mass of a rotating object can change depending on its angular velocity.
(39) The centre of mass of a system of particles can be used to analyze its overall motion.
(40) The centre of mass of a system of objects can be used to analyze its angular momentum.
Centre Of Mass meaningful sentence
(41) The centre of mass of a system of planets is influenced by their masses and distances.
(42) The centre of mass of a symmetrical object is typically located at its geometric center.
(43) The centre of mass is an important concept in understanding the stability of structures.
(44) The centre of mass of a system of particles can be used to calculate its total momentum.
(45) The centre of mass of a system of particles can be used to analyze its rotational motion.
(46) The centre of mass of a system of objects can be used to analyze their collective motion.
(47) The centre of mass of a system of objects can be used to analyze their rotational motion.
(48) The centre of mass of a system of objects can be used to calculate its total kinetic energy.
(49) The centre of mass of a system of particles can be used to calculate its total kinetic energy.
(50) The centre of mass of a system of particles can be used to calculate its total potential energy.
Centre Of Mass sentence examples
(51) To find the centre of mass of an irregular object, you need to consider its distribution of mass.
(52) The centre of mass of a system of particles can be used to determine its total mechanical energy.
(53) The centre of mass of a system of particles can be outside the physical boundaries of the system.
(54) The centre of mass of a system of objects can be used to calculate the total momentum of the system.
(55) The centre of mass is a concept used in physics to describe the average position of mass in an object.
(56) The centre of mass of a system of particles is unaffected by the external forces acting on the system.
(57) The centre of mass of a system of objects can be outside the physical boundaries of any individual object.
(58) The centre of mass of a system of particles can be used to calculate the total kinetic energy of the system.
(59) The centre of mass of a system of particles can be used to calculate the total linear momentum of the system.
(60) The centre of mass of a system of objects can be used to determine the total mechanical energy of the system.
Sentence with centre of mass
(61) The centre of mass of a system of particles is a point that represents the average position of the particles.
(62) The centre of mass of a system of particles can be used to calculate the total angular momentum of the system.
(63) The centre of mass of a system of particles can be calculated by taking the weighted average of their positions.
(64) The centre of mass of an irregularly shaped object can be determined experimentally by balancing it on a pivot point.
(65) The centre of mass of a system of objects can be used to determine the total rotational kinetic energy of the system.
(66) The centre of mass of a system of particles can be calculated by taking the weighted average of their individual masses.
(67) The centre of mass of a system of objects can be used to determine the total gravitational potential energy of the system.
(68) The centre of mass of a system of particles can be used to calculate the total gravitational potential energy of the system.
Centre Of Mass meaning
Centre of mass is a term commonly used in physics and engineering to describe the point at which an object or system can be balanced. It is a crucial concept that helps in understanding the behavior and motion of objects, especially when dealing with forces and torques. In this article, we will explore various tips on how to use the phrase "centre of mass" effectively in sentences.
1. Definition and Explanation: When introducing the term "centre of mass" in a sentence, it is essential to provide a clear and concise definition.
For example, "The centre of mass refers to the point within an object or system where the mass is evenly distributed, allowing it to be balanced."
2. Contextualize with Examples: To enhance understanding, it is helpful to provide examples that illustrate the concept of the centre of mass. For instance, "When a gymnast performs a somersault, they must tuck their body tightly to bring their centre of mass closer to their rotational axis, ensuring a smooth and controlled rotation."
3. Relate to Real-World Applications: To make the concept more relatable, it is beneficial to mention real-world applications where the centre of mass plays a significant role. For instance, "In architecture, engineers must consider the centre of mass when designing tall buildings to ensure stability and prevent toppling in the event of strong winds or earthquakes."
4. Discuss Mathematical Calculations: The centre of mass can be calculated mathematically using various formulas. When discussing these calculations, it is crucial to provide step-by-step explanations.
For example, "To find the centre of mass of a uniform object, divide the sum of the products of each mass element and its corresponding distance by the total mass of the object."
5. Explain Relationship with Stability: The centre of mass is closely related to an object's stability. When discussing this relationship, it is important to emphasize how the position of the centre of mass affects stability. For instance, "A tall and narrow object, such as a ladder, is more likely to tip over if its centre of mass is positioned too far from its base."
6. Highlight Importance in Mechanics: The concept of the centre of mass is fundamental in mechanics, particularly when analyzing the motion of objects. When discussing this importance, it is helpful to mention key principles such as Newton's laws of motion.
For example, "Newton's second law of motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass, with the force applied at the object's centre of mass."
7. Contrast with Centre of Gravity: While the terms "centre of mass" and "centre of gravity" are often used interchangeably, it is important to note the subtle differences between them. For instance, "Although the centre of mass and centre of gravity are usually located at the same point for objects near the Earth's surface, the centre of gravity refers specifically to the point where the force of gravity can be considered to act."
8. Discuss Implications in Sports: The concept of the centre of mass is highly relevant in sports, particularly those involving balance and coordination. When discussing this implication, it is beneficial to provide examples from different sports. For instance, "In figure skating, skaters must maintain a low centre of mass to enhance stability and execute complex spins and jumps with precision."
9. Address Importance in Astronautics: The centre of mass is crucial in the field of astronautics, where understanding the dynamics of objects in space is essential. When discussing this importance, it is helpful to mention how the centre of mass affects spacecraft maneuverability and stability.
For example, "Astronauts must carefully position their bodies and equipment to ensure the centre of mass remains within the spacecraft's limits during spacewalks."
10. Emphasize Safety Considerations: Lastly, it is important to highlight the safety considerations associated with the centre of mass. For instance, "When lifting heavy objects, it is crucial to maintain a stable centre of mass by keeping the load close to the body and distributing the weight evenly to prevent strain or injury."
In conclusion, the phrase "centre of mass" is a fundamental concept in physics and engineering. By following these tips, you can effectively incorporate this term into sentences, providing a comprehensive understanding of its definition, applications, calculations, and implications in various fields.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Centre Of Mass. They do not represent the opinions of TranslateEN.com.