The equivalence principle has been verified by multiple experiments. Many of these experiments are drop experiments: Balls of different masses fall to the ground. Each experiment yielded the same result: Both objects fall to the ground at the same time. However, we have doubts about this result. Fortunately general relativity provides a tool, It can be used to verify our ideas. It tells us: Mass bends spacetime, and the curvature of spacetime reflects the magnitude of gravity. So, we conducted a thought experiment with this tool, The conclusion is: The experimental results contain a scale problem, Under the existing experimental precision, on a certain scale, We can only get the same result. When this scale is exceeded, the results will be ...
Abstract. We describe specific advances in the analysis and development of an experiment to test th...
Abstract. Some future tests of the weak equivalence principle (WEP) with laboratory-size proof mass...
Gravity’s relationship to the other fundamental forces is still not well understood. The Standard Mo...
General relativity is founded on the experimental fact that in a gravitational field all bodies fall...
Being the most fundamental interaction gravity not only describes a particular interaction between m...
Einstein’s theory of general relativity -- currently the best known description of gravitational phe...
The weak equivalence principle (WEP), stating that two bodies of different compositions and/or mass ...
The scientific goal of the experiment is to test the equality of gravitational and inertial mass (i....
The universality of free fall and the weak equivalence principle, which are at the basis of general ...
It is well known that Newton’s work on mechanics depended in a crucial way on the previous observati...
Through the contributions of Galileo, Newton, and Einstein, we recall the universality of free fall ...
International audienceThe Weak Equivalence Principle (WEP), stating that two bodies of different com...
Through the contributions of Galileo, Newton, and Einstein, we recall the universality of free fall ...
Abstract The equivalence Principles of general relativity are an open question of physics – the rel...
Free fall is commonly discussed as an example of the equivalence principle, in the context of a homo...
Abstract. We describe specific advances in the analysis and development of an experiment to test th...
Abstract. Some future tests of the weak equivalence principle (WEP) with laboratory-size proof mass...
Gravity’s relationship to the other fundamental forces is still not well understood. The Standard Mo...
General relativity is founded on the experimental fact that in a gravitational field all bodies fall...
Being the most fundamental interaction gravity not only describes a particular interaction between m...
Einstein’s theory of general relativity -- currently the best known description of gravitational phe...
The weak equivalence principle (WEP), stating that two bodies of different compositions and/or mass ...
The scientific goal of the experiment is to test the equality of gravitational and inertial mass (i....
The universality of free fall and the weak equivalence principle, which are at the basis of general ...
It is well known that Newton’s work on mechanics depended in a crucial way on the previous observati...
Through the contributions of Galileo, Newton, and Einstein, we recall the universality of free fall ...
International audienceThe Weak Equivalence Principle (WEP), stating that two bodies of different com...
Through the contributions of Galileo, Newton, and Einstein, we recall the universality of free fall ...
Abstract The equivalence Principles of general relativity are an open question of physics – the rel...
Free fall is commonly discussed as an example of the equivalence principle, in the context of a homo...
Abstract. We describe specific advances in the analysis and development of an experiment to test th...
Abstract. Some future tests of the weak equivalence principle (WEP) with laboratory-size proof mass...
Gravity’s relationship to the other fundamental forces is still not well understood. The Standard Mo...