Calf raises are sometimes done with a flexed knee, usually roughly 90 degrees. This lessens the stretch in the gastrocnemius (a knee flexor), so the movement is done to emphasize the soleus.
Bent-knee calf raises are frequently done in a seated position for comfort. Since the weight of the upper body is rested on the seat, resistance is frequently added. Using bodyweight, one leg could be draped across the other (through external rotation) to exercise unilaterally and double the weight lifted.
It can also be executed by using a weight, such as a barbell, to provide resistance to the action of the calf muscles. The exercise is performed from a seated position while the weight rests on the upper leg, just above the knee. The person engaged in this exercise lifts the weight by pushing down on the balls of the feet.
Due to the discomfort of higher weights on a bar, barbells used for seated calf raises are frequently padded or wrapped in a towel. There are also seated calf raise machines designed using levers that have pads built into them to protect the patella, quadriceps and tendons.
Bridging exercises are done with a flexed knee to lessen the stretch on the hamstring (a knee flexor) and focus the hip extension work on the gluteus maximus. In that same respect, the reduced knee flexion makes plantar flexion work comparable to a seated calf raise, due to the lessened stretch on the gastrocnemius (like the hamstring, also a knee flexor).
Since the pelvis is in the air, its weight can be shifted onto the feet allowing greater resistance.
This is an awkward exercise due to the reduced stability and difficulty in adding resistance. If one were to raise a leg, the use of the arms to avoid falling sideways would often by necessary. If one were to place a padded barbell on the upper quadriceps to add resistance, this would make the arms less able to stabilize, requiring core stabilization.
Pushing with the foot with a straighter knee (though for safety it is usually not locked out) stretches the gastrocnemius more, these movements incorporate it better. The soleus still contributes, usually allowing people to lift more weight.
Standing calf raises are executed with one or both feet. They are frequently done on a raised surface with the heel lower than the toes to allow a greater stretch on the working muscles. The exercise is performed by raising the heel as far as possible. Weights or other methods of providing resistance are commonly used, but the exercise is also effective with body weight alone.
Balance may become a difficulty with free-standing calf raises, especially with one-legged variations. Due to this, it is common to hang on to something or lean the hand against a wall for stability. They are also performed using Smith machines or using machines specially designed for calf raises with padded anchors for the weight that rest on the shoulders.
A straight-knee calf raise is often done using the leg press machine. The sled is kept nearly locked out and the exerciser is meant to keep the hip and knee joints immobile. This is not a bodyweight exercise, the only body part actually being lifted is the small weight of the foot. The resistance comes from the sled.
A leg press is easy to stabilize and the safety bar is kept in place so if the person can not lift it, it should come down safely.
It is not uncommon to hear of some fitness trainers using reps of 50 or more, as they believe the gastrocnemius is composed of slow twitch fibers which benefit from lower weights and higher repetitions. This is not correct. The gastrocnemius is actually made up of fast twitch muscle fibers, which benefit more from heavy loads and low reps (6-8) on the standing calf raise. The soleus, on the other hand, is another plantarflexor of the ankle. The soleus is a slow twitch muscle and will benefit from high reps and lower loads on the seated calf raise.
- "How to do the Machine Calf Raise". About.com. Retrieved 7 March 2010.
- "Standing Calf Raise". About.com. Retrieved 7 March 2010.
- "Do Calf Raises Work?". SkinnyBulkUp.com. Retrieved 7 March 2010.
- Hamilton, Nancy; Luttgens, Kathryn (2001). Kinesiology: Scientific Basis of Human Motion (10th ed.). McGraw-Hill. ISBN 978-0-07-248910-1.
- Gollnick PD, Sjödin B, Karlsson J, Jansson E, Saltin B (April 1974). "Human soleus muscle: a comparison of fiber composition and enzyme activities with other leg muscles". Pflügers Archiv. 348 (3): 247–55. doi:10.1007/BF00587415. PMID 4275915.