A globular cluster is a collection of stars in the form of a sphere that orbits a galactic core. Global clusters are generally tightly bound by gravity, making the stellar density higher toward the center, and giving them their spherical shapes. Globular clusters are usually found in the halo of a galaxy.
The fact that the gravitational pull of a globular cluster is rather weak means that a single supernova explosion can blow the interstellar gas out of a globular cluster. This would mean that the gas left is not dense enough to form new stars. After the first generation, globular clusters cease to form new stars because they lack material due to their deficiency in heavy elements.
Location: is defined as a particular place or position. Most studies of geography begin with the mention of this theme of geography. Location can be of two types: absolute location and relative location. In the former case, the location of a place is defined by its latitude and longitude or its exact address.
Place:The physical and human characteristics of a location. Physical characteristics include things such as mountains, rivers, and beaches. Human characteristics include things such as political institutions, culture, housing.
Human-Environment Interaction: can be defined as interactions between the human social system and (the “rest” of) the ecosystem. Human social systems and ecosystems are complex adaptive systems
Movement: Humans Interacting on the Earth. The postmodern world is one of great interaction between places
Region: A region is an area of land that has common features. A region can be defined by natural or artificial features. Language, government, or religion can define a region, as can forests, wildlife, or climate. Regions, large or small, are the basic units of geography
Answer:
[a] 103m (I guess that it is 10^3 m)
Explanation:
To calculate how many millimeters you enter in a kilometer, just know the relationship between both units of distance.
The relationship is as follows:
1 km = 1 000 000 mm
So:
1 km = 1000 m = <u>10^3 m</u> = 10^6 mm = 1 000 000 mm
Yes, I can see inflation in day to day life. The inflation can be noticed in practice the easiest when we go shopping, especially for numerous goods, and when we pay attention to the prices. Whenever a price goes up of some good, while in meantime the wages of the people remain the same, we have inflation.
I do hear elderly people constantly saying that back in the day everything was much cheaper, but even if that wasn't the case, I personally recall the significant changes in the past 20 years in my country (Macedonia). When I was little for example, I remember a pastry called gjevrek, or an ice cream in cone , cost 5 MKD each. Over time the prices were going up, so nowadays the same pastry costs 15 MKD, while the ice cream in cone is 20 MKD, so it is easy to see the increase in price. It has to be taken in account though that the wages of the people have also been increasing, and the rate of increase of the wages has been pretty much following the rate of increase of the prices of the goods, so the inflation has actually been very small, 2-3%, which is actually a healthy inflation.
In order for the inflation to be kept under control, the economy has to be constantly growing. The production of goods needs to be on the rise, and the amount of money in the economy to also be on the rise. The prices of most of the goods will go up, but with the economy growing it will be balanced and there will be no problem.
