Answer:
Therefore, when the radius of a sphere is increased by 25%, the surface area increases by approximately 56.25%.
Explanation:
The surface area of a sphere is given by the formula: Surface Area = 4πr^2 where r is the radius of the sphere.
To find the percentage increase in surface area when the radius is increased by 25%, we can follow these steps:
1. Let's assume the initial radius of the sphere is r.
2. If the radius is increased by 25%, the new radius will be 1.25r (since 25% is equivalent to multiplying by 1.25).
3. Now, we can calculate the initial surface area (A1) using the formula: A1 = 4πr^2. 4.
Similarly, we can calculate the new surface area (A2) using the formula: A2 = 4π(1.25r)^2 = 4π(1.5625r^2) = 6.25πr^2.
5. The percentage increase in surface area can be calculated as follows: Percentage Increase = ((A2 - A1) / A1) * 100
6. Plugging in the values we obtained earlier,
we have: Percentage Increase = ((6.25πr^2 - 4πr^2) / 4πr^2) * 100 = ((2.25πr^2) / 4πr^2) * 100 = 56.25%
Answer:
B
Explanation:
Because If the pitch of a sound increases, then we know that its frequency
has increased, and its wavelength has decreased.
All of the above is the right answer for Odesseyware.
Solar energy is free and renewable.
Its efficiency is determined by the photovoltaic or heat-exchanging equipment used, and the efficiency of the infrastructure built to interconnect them. None of that depends on the time of the year. For a given amount of solar energy absorbed by the collector, the amount of useful output energy doesn't change with the season.
b. the compressor blows cold refrigerant into the room
c none of the above
Answer:
Explanation: The turnoff point for a star refers to the point on the Hertzsprung–Russell diagram where it leaves the main sequence after its main fuel is exhausted-the main sequence turnoff. HR diagrams for two open clusters, M67 and NGC 188, showing the main sequence turn-off at different ages.