HotelInfantesAgres - Bawat tanong, may sagot. Logo

Questions in science

[Sagot para sa’yo] C. Answer the following question briefly but subtantially 1 How are EM waves different from mechanical waves? 2 Give two source of EM waves in the Earth s environment.

[Sagot para sa’yo] how are elements classified

[Sagot para sa’yo] 6. If cytoplasm holds all the organelles. which part of the cell serves as the gateway? A. nucleus C. cell wall B. cytoplasm D.cell membrance​

[Sagot para sa’yo] What would happen if the soil lacks necessary nutrients for the crops to grow?

[Sagot para sa’yo] what organ of the urinary acts as a temporary storage of urine​

[Sagot para sa’yo] what is characteristics of ligaments

[Sagot para sa’yo] Energy flow in food chains and food werbs is respected by an​

[Sagot para sa’yo] how do environment factors ( e.g. distance from epicenter, soil type) affect the intensity felt?​• answer Environmental Factors Affecting Earthquake Intensity Environmental factors play a crucial role in determining the intensity of an earthquake felt at a particular location. Here's how: - Distance from the Epicenter: The closer you are to the epicenter, the stronger the shaking will be. This is because the seismic waves lose energy as they travel away from the source.- Soil Type: The type of soil or rock beneath the surface can significantly influence the intensity of ground shaking. - Loose, unconsolidated sediments (like sand or clay): These amplify seismic waves, leading to stronger shaking.- Solid bedrock: Bedrock tends to transmit seismic waves more efficiently, resulting in less amplification and weaker shaking.- Geological Features: The presence of geological features like faults, valleys, and hills can affect the way seismic waves travel and amplify. For example, a valley can focus seismic waves, leading to stronger shaking at the valley bottom.- Building Construction: The design and construction of buildings also play a significant role in how they respond to earthquake shaking. Buildings constructed with strong materials and earthquake-resistant designs are more likely to withstand strong shaking. Key Knowledge: - Seismic Waves: Earthquakes generate different types of seismic waves, including P-waves (primary waves), S-waves (secondary waves), and surface waves. Each wave type travels at different speeds and affects the ground in different ways.- Amplification: Seismic waves can be amplified as they travel through certain types of soil or rock, leading to stronger shaking.- Earthquake-Resistant Design: Buildings can be designed and constructed to withstand earthquake forces. This involves using strong materials, flexible connections, and other features to minimize damage during an earthquake. Tips: - Understanding the environmental factors that influence earthquake intensity is crucial for developing effective earthquake preparedness and mitigation strategies.- By considering these factors, we can design buildings and infrastructure that are more resilient to earthquakes and minimize the risk of damage and casualties.

[Sagot para sa’yo] I. Activity 2.4: Prokaryotic and Eukaryotic Cell Journey Map (10 minutes) II. Objectives: Differentiate unicellular and multicellular organisms Prokaryotic and Eukaryotic Using your reference material, fill out this map. Each destination represents one important concept in understanding prokaryotic and eukaryotic cells. II. Materials Needed: Worksheet Writing materials (ballpen, pencil, etc.), IV. Instructions: • Visit the interactive material by accessing the link given below. Based on what you have read, complete the Cell Journey Map and answer the questions in the interactive site. Answer to the Questions: 1. 2. 3. Score: Cell Size Difference between Prokaryotic and Eukaryotic Cells Components of a Prokaryotic Cell FINISH Eukaryotic Cells START PILOT IMPLEMENTATION OF THE MATATAG K TO 10 CU​

[Sagot para sa’yo] what word goes with compression? A. Fault B. Foot wall C. Hanging wall D. Opposite E. Pull F. Squeeze​