Same as any other material. Glass has a thickness,inertia, area, modulus, etc. like all materials.
If u mean strength of glass, ask again
stress is the ratio between the load and area
You may increase the slab thickness and/or calculate the steel reinforcement required to withstand against the applied shear stress.
Stress in general is the internal distribution of force per unit area. With knowledge of the material of the pliers it could be calculated from the strain in the pliers, which can be directly measured using strain gauges.
I suggest you refer to an engineering text-book because there are so many variables in the calculation your question as put is not answerable.
Concrete floors are often separated by glass strips to allow for expansion and contraction due to temperature changes, preventing cracking. The glass strips also provide a visually appealing design element while maintaining a seamless appearance. Additionally, these strips can serve as joints that help manage stress within the concrete, enhancing durability and longevity.
The frequency at which glass shatters under stress varies depending on factors such as the type of glass and the amount of force applied. Generally, glass shatters at frequencies that correspond to its natural resonant frequency when subjected to significant stress.
David C. Glass has written: 'Urban stress: experiments on noise and social stressors' -- subject(s): Noise, Stress (Physiology), Stress (Psychology)
stress= force/C.S.A. so fracture stress = force at fracture / Cross.Sectional.Area.
stress is the ratio between the load and area
To calculate strain from stress, you can use the formula: Strain Stress / Young's Modulus. Stress is the force applied to an object, while Young's Modulus is a measure of the stiffness of the material. By dividing the stress by the Young's Modulus, you can determine the strain, which is the amount of deformation the material undergoes in response to the stress.
This depends on the type of window/glass as some glass is thermally treated. However, stress in the glass from contraction/expansion can make a noticeable crack. Heat alone will not crack glass but it will, over time, melt it.
Yes, glass can break glass. When enough force is applied, such as through impact or pressure, glass can crack or shatter. Glass is a brittle material that is prone to breaking under stress.
When cold water is added to a hot glass beaker, the sudden temperature change causes thermal stress in the glass. This stress leads to uneven contraction and expansion of different parts of the glass, resulting in the glass beaker shattering due to the internal pressure that builds up within the glass.
To calculate strain from stress in a material, you can use the formula: Strain Stress / Young's Modulus. Stress is the force applied to the material, and Young's Modulus is a measure of the material's stiffness. By dividing the stress by the Young's Modulus, you can determine the amount of deformation or strain the material undergoes under the applied stress.
To calculate strain in a material under stress, you can use the formula: Strain Change in length / Original length. This formula helps you determine how much a material deforms under stress.
When a high-intensity sound wave hits glass, it can cause the glass to vibrate at its natural frequency, leading to stress and ultimately causing the glass to break.
The glass table likely exploded due to a sudden change in temperature or pressure, causing stress on the glass and leading to its breakage.