<span>Assuming that this is referring to the same list of options that was posted before with this question, <span>the correct response would be "in a state of depression," since it was not until the US mobilized for the war that it was able to finally dig itself out from the Great Depression. </span></span>
Because they agreed that the troops had acted in self-defense
Socialists were in many ways looking for a radical change in the way society was structured. Their main goal was to re-build economic, political, philosophical and religious systems from scratch, neglecting everything related to the capitalist society they wanted to overcome. Because of this idea of re-installation, of decosntruction of all known models, socialists were utopian in their way of thinking and developing.
Social reformers on the other hand, understood the principles of socialist and communist societies but also the fact that their idea of democracy required winning state power. By slowly adapting the established system to their social reforms they could remain in power for long periods of time that could then be used to further transform and fix the issues presented by capitalism like lack of education, low wages and inequity.
Answer/Explanation:
France did not think the colonists could win, but after victories by the Continental army, France provided aid and signed a formal alliance.
Answer:
Explanation:
Some cells also feature orderly arrangements of molecules called organelles. Similar to the rooms in a house, these structures are partitioned off from the rest of a cell's interior by their own intracellular membrane. Organelles contain highly technical equipment required for specific jobs within the cell. One example is the mitochondrion — commonly known as the cell's "power plant" — which is the organelle that holds and maintains the machinery involved in energy-producing chemical reactions (Figure 3).
A pie slice diagram shows the proportion of water to typical chemical components in a bacterial cell. Each chemical component is color-coded and is labeled by name and percent.
Figure 2: The composition of a bacterial cell
Most of a cell is water (70%). The remaining 30% contains varying proportions of structural and functional molecules.
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Figure Detail
A diagram of scale shows how different biological features fall along a size gradient. Atoms are represented on the far left side of the scale, while much larger blood vessels are pictured on the far right; molecules, organelles, and cells are arranged in the middle in order of increasing size, between these two extremes.
Figure 3: The relative scale of biological molecules and structures
Cells can vary between 1 micrometer (μm) and hundreds of micrometers in diameter. Within a cell, a DNA double helix is approximately 10 nanometers (nm) wide, whereas the cellular organelle called a nucleus that encloses this DNA can be approximately 1000 times bigger (about 10 μm). See how cells compare along a relative scale axis with other molecules, tissues, and biological structures (blue arrow at bottom). Note that a micrometer (μm) is also known as a micron.