Q: To determine when the oil is ready, drop a small amount of batter into the pot. If it turns black instantly, the oil is too hot. If it sinks to the bottom of the pot with no reaction, the oil is too cool. If it sizzles but maintains its color, the oil is at an appropriate temperature. You can also use a digital thermometer for this step. If the thermometer reads 375 degrees Fahrenheit (190.5 Celsius), the oil is ready. Use an ice cream scoop and your hands for this step. Make the balls in groups of however many your pot will hold at once. This way you can make them in batches. Fry until golden brown, about 4 minutes total. Flip the balls halfway through. Once they are done, remove them from the pot with a slotted spoon. Put them on a paper towel-lined plate to dry. Serve with hot sauce or salsa, as well as your favorite bread.
A: Heat 2-3 inches (5.08-7.62 cm) of vegetable oil in a heavy-bottomed pot over medium-high heat. Form the paste into balls about the size of ping-pong balls. Drop the balls into the pot. Consume your akara hot or at room temperature.

Article: Ankle sprains come in three different grades. Treatment options will be determined based on the severity of the injury. The least severe is a grade I sprain.  This is a minor tear that doesn't affect your ability to stand or walk. While it might be uncomfortable, you can still use your ankle normally. A grade I sprain may result in minor swelling and pain. In a minor sprain, swelling will usually go away in a few days.  Self-care is usually enough for a minor sprain. A grade II sprain is a moderate injury. It is an incomplete but substantial tear of a ligament or ligaments.  In a grade II sprain, you will not be able to use your ankle normally and will have trouble putting weight on it. You will experience moderate pain, bruising, and swelling. The ankle will feel loose and may look as if it has been pulled forward somewhat. For a grade II sprain, you will need medical attention and may need to use crutches and an ankle brace for a while to walk. A grade III sprain is a complete tear and loss of the structural integrity of the ligament.  With a grade III sprain, you will be unable to put any weight on the ankle and will be unable to stand without help. Pain and bruising will be severe. There will be significant swelling (more than 4 cm) around the fibula (calf bone). There may be notable foot and ankle deformity and high fibular fractures just below the knee, which can be determined by a medical examination. A grade III sprain requires the immediate attention of a doctor. A fracture is a bone injury that is especially common with high-speed ankle injuries in the healthy population or minor falling injuries in the elder population. The symptoms are often similar to a grade III sprain. A fracture will require X-rays and professional treatment.  A fractured ankle will be very painful and unstable. A minor or hairline fracture may be identical in symptoms to a sprain, but only a trained medical professional with X-rays can diagnose or rule this out. A popping sound at the moment of injury may be evidence of a fracture. An obvious foot or ankle deformity, such as your foot laying in an unusual position or angle, is definite evidence of a fracture or ankle joint dislocation.
Question: What is a summary of what this article is about?
Recognize a grade I sprain. Recognize a grade II sprain. Recognize a grade III sprain. Recognize the signs of a fracture.

Q: Each allele will fit into the two boxes below it or to the right of it, depending on its placement. For example, if the allele B is in the horizontal top-left corner, write B in the two left boxes below. If the allele B is in the vertical top left corner, you must write B in the two boxes to the right. Continue to fill in the boxes with alleles until each box has two alleles, one from each parent.  The convention is to always write the capital dominant allele first followed by the lowercase recessive allele. For our hair color example two brown-haired parents could either be BB or Bb. You would have to know their specific genotype. However, if the parent is blonde you know their genotype is the recessive bb. For a monohybrid cross, there are only three possible genotypes: BB, Bb, and bb. BB (brown hair) and bb (blonde hair) are homozygous for a gene meaning that they have two identical alleles for one gene. Bb (brown hair) are heterozygous meaning that they have two different alleles for the gene. Some crosses may only give you one or two genotypes.  For our example, using the cross BB x Bb, the Punnett square would show the possibilities as two BB and two Bb. If you cross two homozygous parents with the same genotype (BB x BB or bb x bb) all of the genotypes will be homozygous (BB or bb). If you cross two homozygous parents with different genotypes, BB x bb, all of the genotypes will be Bb. If you cross a heterozygous with a homozygous parent (BB x Bb or bb x Bb), you will have two homozygotes (BB or bb) and two heterozygotes (Bb). If you cross two heterozygous parents, Bb x Bb, you will have two homozygotes (1 BB and 1 bb) and two heterozygotes (Bb) Using the counts from the previous step, you can determine the phenotype ratio. A phenotype is the physical characteristic of the gene, such as hair or eye color. Assuming the trait shows complete dominance, the heterozygous genotype (the cross showing dissimilar pairs of genes for a hereditary characteristic) will display the dominant phenotype. In the BB x Bb cross, the phenotypes will be four dominant brown-haired offspring (2 BB and 2 Bb) to zero recessive blonde-haired offspring (bb) so the ratio would be 4:0. 100% of the offspring will have brown hair, but 50% of them will be homozygous while the other 50% will be heterozygous.
A:
Match the alleles together using the boxes as guides. Count the number of each genotype. Calculate the phenotype ratio.