To assess the likely risks from faults like fire, electric shock, and damage to plant, one should conduct a thorough risk assessment that includes identifying potential hazards, evaluating the likelihood and severity of each risk, and analyzing existing control measures. This involves reviewing historical incident data, conducting site inspections, and engaging with employees to gather insights. Additionally, implementing regular maintenance and safety training can help mitigate these risks. Finally, creating an emergency response plan ensures preparedness for any incidents that may occur.
Common faults when installing hardware include incorrect connections (e.g. cables not fully plugged in), hardware incompatibility (e.g. using the wrong type of RAM), and physical damage to components (e.g. bending CPU pins). These faults can lead to hardware not functioning properly or even damage to the components.
No. Your terminology is close but not quite right. The three main types of faults are normal faults, reverse faults, and strike-slip faults. Strike-slip faults may also be called transform faults.
Faults are created when tectonic plates are stretching or compressing. There are two types of faults which are normal and reverse faults.
Your faults are flaws in your personality. Earth's faults are cracks in the ground along which blocks of rock move.
No, reverse faults typically occur on land when one block of rock is forced up over another due to compression. Tsunamis are usually caused by large underwater earthquakes, submarine landslides, or volcanic eruptions. Reverse faults are more likely to cause local shaking and damage near the fault rather than trigger a tsunami.
Yes, the ground is a conductor of electricity. It can facilitate the flow of electric currents, which is why grounding is an important safety measure in electrical systems to prevent electric shocks or damage in case of faults.
Common faults when installing hardware include incorrect connections (e.g. cables not fully plugged in), hardware incompatibility (e.g. using the wrong type of RAM), and physical damage to components (e.g. bending CPU pins). These faults can lead to hardware not functioning properly or even damage to the components.
No. Your terminology is close but not quite right. The three main types of faults are normal faults, reverse faults, and strike-slip faults. Strike-slip faults may also be called transform faults.
It's a fault that's not always present - otherwise known as an 'intermittent fault' for example, a TV screen may work fine when first switched on, but as it 'warms up', it goes blank - indicating a 'dry-joint'
There are 6 types of fault lines. Strike-slip faults, dip-slip faults, oblique- slip faults, listric faults, ring faults, and synthetic and antithetic faults.
Faults are created when tectonic plates are stretching or compressing. There are two types of faults which are normal and reverse faults.
Brittle deformation results in structures like faults, joints, and fractures, while ductile deformation leads to structures such as folds, foliations, and cleavage planes. These structures reflect the response of rocks to different types of stress and deformation processes within the Earth's crust.
Your faults are flaws in your personality. Earth's faults are cracks in the ground along which blocks of rock move.
Your faults are flaws in your personality. Earth's faults are cracks in the ground along which blocks of rock move.
Your faults are flaws in your personality. Earth's faults are cracks in the ground along which blocks of rock move.
Yes, it is essential to earth a Distribution Board (DB) to ensure safety and protect against electrical faults. Proper earthing helps in dissipating excess electrical current to the ground and prevents electric shock hazards. It also aids in protecting electrical equipment from damage due to power surges.
The three major types of faults are normal faults, reverse faults, and strike-slip faults. Synclines are not faults but rather geological structures that describe the folding of rock layers.